1*67e74705SXin Li //===----- CGOpenMPRuntime.cpp - Interface to OpenMP Runtimes -------------===//
2*67e74705SXin Li //
3*67e74705SXin Li // The LLVM Compiler Infrastructure
4*67e74705SXin Li //
5*67e74705SXin Li // This file is distributed under the University of Illinois Open Source
6*67e74705SXin Li // License. See LICENSE.TXT for details.
7*67e74705SXin Li //
8*67e74705SXin Li //===----------------------------------------------------------------------===//
9*67e74705SXin Li //
10*67e74705SXin Li // This provides a class for OpenMP runtime code generation.
11*67e74705SXin Li //
12*67e74705SXin Li //===----------------------------------------------------------------------===//
13*67e74705SXin Li
14*67e74705SXin Li #include "CGCXXABI.h"
15*67e74705SXin Li #include "CGCleanup.h"
16*67e74705SXin Li #include "CGOpenMPRuntime.h"
17*67e74705SXin Li #include "CodeGenFunction.h"
18*67e74705SXin Li #include "clang/AST/Decl.h"
19*67e74705SXin Li #include "clang/AST/StmtOpenMP.h"
20*67e74705SXin Li #include "llvm/ADT/ArrayRef.h"
21*67e74705SXin Li #include "llvm/Bitcode/ReaderWriter.h"
22*67e74705SXin Li #include "llvm/IR/CallSite.h"
23*67e74705SXin Li #include "llvm/IR/DerivedTypes.h"
24*67e74705SXin Li #include "llvm/IR/GlobalValue.h"
25*67e74705SXin Li #include "llvm/IR/Value.h"
26*67e74705SXin Li #include "llvm/Support/Format.h"
27*67e74705SXin Li #include "llvm/Support/raw_ostream.h"
28*67e74705SXin Li #include <cassert>
29*67e74705SXin Li
30*67e74705SXin Li using namespace clang;
31*67e74705SXin Li using namespace CodeGen;
32*67e74705SXin Li
33*67e74705SXin Li namespace {
34*67e74705SXin Li /// \brief Base class for handling code generation inside OpenMP regions.
35*67e74705SXin Li class CGOpenMPRegionInfo : public CodeGenFunction::CGCapturedStmtInfo {
36*67e74705SXin Li public:
37*67e74705SXin Li /// \brief Kinds of OpenMP regions used in codegen.
38*67e74705SXin Li enum CGOpenMPRegionKind {
39*67e74705SXin Li /// \brief Region with outlined function for standalone 'parallel'
40*67e74705SXin Li /// directive.
41*67e74705SXin Li ParallelOutlinedRegion,
42*67e74705SXin Li /// \brief Region with outlined function for standalone 'task' directive.
43*67e74705SXin Li TaskOutlinedRegion,
44*67e74705SXin Li /// \brief Region for constructs that do not require function outlining,
45*67e74705SXin Li /// like 'for', 'sections', 'atomic' etc. directives.
46*67e74705SXin Li InlinedRegion,
47*67e74705SXin Li /// \brief Region with outlined function for standalone 'target' directive.
48*67e74705SXin Li TargetRegion,
49*67e74705SXin Li };
50*67e74705SXin Li
CGOpenMPRegionInfo(const CapturedStmt & CS,const CGOpenMPRegionKind RegionKind,const RegionCodeGenTy & CodeGen,OpenMPDirectiveKind Kind,bool HasCancel)51*67e74705SXin Li CGOpenMPRegionInfo(const CapturedStmt &CS,
52*67e74705SXin Li const CGOpenMPRegionKind RegionKind,
53*67e74705SXin Li const RegionCodeGenTy &CodeGen, OpenMPDirectiveKind Kind,
54*67e74705SXin Li bool HasCancel)
55*67e74705SXin Li : CGCapturedStmtInfo(CS, CR_OpenMP), RegionKind(RegionKind),
56*67e74705SXin Li CodeGen(CodeGen), Kind(Kind), HasCancel(HasCancel) {}
57*67e74705SXin Li
CGOpenMPRegionInfo(const CGOpenMPRegionKind RegionKind,const RegionCodeGenTy & CodeGen,OpenMPDirectiveKind Kind,bool HasCancel)58*67e74705SXin Li CGOpenMPRegionInfo(const CGOpenMPRegionKind RegionKind,
59*67e74705SXin Li const RegionCodeGenTy &CodeGen, OpenMPDirectiveKind Kind,
60*67e74705SXin Li bool HasCancel)
61*67e74705SXin Li : CGCapturedStmtInfo(CR_OpenMP), RegionKind(RegionKind), CodeGen(CodeGen),
62*67e74705SXin Li Kind(Kind), HasCancel(HasCancel) {}
63*67e74705SXin Li
64*67e74705SXin Li /// \brief Get a variable or parameter for storing global thread id
65*67e74705SXin Li /// inside OpenMP construct.
66*67e74705SXin Li virtual const VarDecl *getThreadIDVariable() const = 0;
67*67e74705SXin Li
68*67e74705SXin Li /// \brief Emit the captured statement body.
69*67e74705SXin Li void EmitBody(CodeGenFunction &CGF, const Stmt *S) override;
70*67e74705SXin Li
71*67e74705SXin Li /// \brief Get an LValue for the current ThreadID variable.
72*67e74705SXin Li /// \return LValue for thread id variable. This LValue always has type int32*.
73*67e74705SXin Li virtual LValue getThreadIDVariableLValue(CodeGenFunction &CGF);
74*67e74705SXin Li
emitUntiedSwitch(CodeGenFunction &)75*67e74705SXin Li virtual void emitUntiedSwitch(CodeGenFunction & /*CGF*/) {}
76*67e74705SXin Li
getRegionKind() const77*67e74705SXin Li CGOpenMPRegionKind getRegionKind() const { return RegionKind; }
78*67e74705SXin Li
getDirectiveKind() const79*67e74705SXin Li OpenMPDirectiveKind getDirectiveKind() const { return Kind; }
80*67e74705SXin Li
hasCancel() const81*67e74705SXin Li bool hasCancel() const { return HasCancel; }
82*67e74705SXin Li
classof(const CGCapturedStmtInfo * Info)83*67e74705SXin Li static bool classof(const CGCapturedStmtInfo *Info) {
84*67e74705SXin Li return Info->getKind() == CR_OpenMP;
85*67e74705SXin Li }
86*67e74705SXin Li
87*67e74705SXin Li ~CGOpenMPRegionInfo() override = default;
88*67e74705SXin Li
89*67e74705SXin Li protected:
90*67e74705SXin Li CGOpenMPRegionKind RegionKind;
91*67e74705SXin Li RegionCodeGenTy CodeGen;
92*67e74705SXin Li OpenMPDirectiveKind Kind;
93*67e74705SXin Li bool HasCancel;
94*67e74705SXin Li };
95*67e74705SXin Li
96*67e74705SXin Li /// \brief API for captured statement code generation in OpenMP constructs.
97*67e74705SXin Li class CGOpenMPOutlinedRegionInfo final : public CGOpenMPRegionInfo {
98*67e74705SXin Li public:
CGOpenMPOutlinedRegionInfo(const CapturedStmt & CS,const VarDecl * ThreadIDVar,const RegionCodeGenTy & CodeGen,OpenMPDirectiveKind Kind,bool HasCancel)99*67e74705SXin Li CGOpenMPOutlinedRegionInfo(const CapturedStmt &CS, const VarDecl *ThreadIDVar,
100*67e74705SXin Li const RegionCodeGenTy &CodeGen,
101*67e74705SXin Li OpenMPDirectiveKind Kind, bool HasCancel)
102*67e74705SXin Li : CGOpenMPRegionInfo(CS, ParallelOutlinedRegion, CodeGen, Kind,
103*67e74705SXin Li HasCancel),
104*67e74705SXin Li ThreadIDVar(ThreadIDVar) {
105*67e74705SXin Li assert(ThreadIDVar != nullptr && "No ThreadID in OpenMP region.");
106*67e74705SXin Li }
107*67e74705SXin Li
108*67e74705SXin Li /// \brief Get a variable or parameter for storing global thread id
109*67e74705SXin Li /// inside OpenMP construct.
getThreadIDVariable() const110*67e74705SXin Li const VarDecl *getThreadIDVariable() const override { return ThreadIDVar; }
111*67e74705SXin Li
112*67e74705SXin Li /// \brief Get the name of the capture helper.
getHelperName() const113*67e74705SXin Li StringRef getHelperName() const override { return ".omp_outlined."; }
114*67e74705SXin Li
classof(const CGCapturedStmtInfo * Info)115*67e74705SXin Li static bool classof(const CGCapturedStmtInfo *Info) {
116*67e74705SXin Li return CGOpenMPRegionInfo::classof(Info) &&
117*67e74705SXin Li cast<CGOpenMPRegionInfo>(Info)->getRegionKind() ==
118*67e74705SXin Li ParallelOutlinedRegion;
119*67e74705SXin Li }
120*67e74705SXin Li
121*67e74705SXin Li private:
122*67e74705SXin Li /// \brief A variable or parameter storing global thread id for OpenMP
123*67e74705SXin Li /// constructs.
124*67e74705SXin Li const VarDecl *ThreadIDVar;
125*67e74705SXin Li };
126*67e74705SXin Li
127*67e74705SXin Li /// \brief API for captured statement code generation in OpenMP constructs.
128*67e74705SXin Li class CGOpenMPTaskOutlinedRegionInfo final : public CGOpenMPRegionInfo {
129*67e74705SXin Li public:
130*67e74705SXin Li class UntiedTaskActionTy final : public PrePostActionTy {
131*67e74705SXin Li bool Untied;
132*67e74705SXin Li const VarDecl *PartIDVar;
133*67e74705SXin Li const RegionCodeGenTy UntiedCodeGen;
134*67e74705SXin Li llvm::SwitchInst *UntiedSwitch = nullptr;
135*67e74705SXin Li
136*67e74705SXin Li public:
UntiedTaskActionTy(bool Tied,const VarDecl * PartIDVar,const RegionCodeGenTy & UntiedCodeGen)137*67e74705SXin Li UntiedTaskActionTy(bool Tied, const VarDecl *PartIDVar,
138*67e74705SXin Li const RegionCodeGenTy &UntiedCodeGen)
139*67e74705SXin Li : Untied(!Tied), PartIDVar(PartIDVar), UntiedCodeGen(UntiedCodeGen) {}
Enter(CodeGenFunction & CGF)140*67e74705SXin Li void Enter(CodeGenFunction &CGF) override {
141*67e74705SXin Li if (Untied) {
142*67e74705SXin Li // Emit task switching point.
143*67e74705SXin Li auto PartIdLVal = CGF.EmitLoadOfPointerLValue(
144*67e74705SXin Li CGF.GetAddrOfLocalVar(PartIDVar),
145*67e74705SXin Li PartIDVar->getType()->castAs<PointerType>());
146*67e74705SXin Li auto *Res = CGF.EmitLoadOfScalar(PartIdLVal, SourceLocation());
147*67e74705SXin Li auto *DoneBB = CGF.createBasicBlock(".untied.done.");
148*67e74705SXin Li UntiedSwitch = CGF.Builder.CreateSwitch(Res, DoneBB);
149*67e74705SXin Li CGF.EmitBlock(DoneBB);
150*67e74705SXin Li CGF.EmitBranchThroughCleanup(CGF.ReturnBlock);
151*67e74705SXin Li CGF.EmitBlock(CGF.createBasicBlock(".untied.jmp."));
152*67e74705SXin Li UntiedSwitch->addCase(CGF.Builder.getInt32(0),
153*67e74705SXin Li CGF.Builder.GetInsertBlock());
154*67e74705SXin Li emitUntiedSwitch(CGF);
155*67e74705SXin Li }
156*67e74705SXin Li }
emitUntiedSwitch(CodeGenFunction & CGF) const157*67e74705SXin Li void emitUntiedSwitch(CodeGenFunction &CGF) const {
158*67e74705SXin Li if (Untied) {
159*67e74705SXin Li auto PartIdLVal = CGF.EmitLoadOfPointerLValue(
160*67e74705SXin Li CGF.GetAddrOfLocalVar(PartIDVar),
161*67e74705SXin Li PartIDVar->getType()->castAs<PointerType>());
162*67e74705SXin Li CGF.EmitStoreOfScalar(CGF.Builder.getInt32(UntiedSwitch->getNumCases()),
163*67e74705SXin Li PartIdLVal);
164*67e74705SXin Li UntiedCodeGen(CGF);
165*67e74705SXin Li CodeGenFunction::JumpDest CurPoint =
166*67e74705SXin Li CGF.getJumpDestInCurrentScope(".untied.next.");
167*67e74705SXin Li CGF.EmitBranchThroughCleanup(CGF.ReturnBlock);
168*67e74705SXin Li CGF.EmitBlock(CGF.createBasicBlock(".untied.jmp."));
169*67e74705SXin Li UntiedSwitch->addCase(CGF.Builder.getInt32(UntiedSwitch->getNumCases()),
170*67e74705SXin Li CGF.Builder.GetInsertBlock());
171*67e74705SXin Li CGF.EmitBranchThroughCleanup(CurPoint);
172*67e74705SXin Li CGF.EmitBlock(CurPoint.getBlock());
173*67e74705SXin Li }
174*67e74705SXin Li }
getNumberOfParts() const175*67e74705SXin Li unsigned getNumberOfParts() const { return UntiedSwitch->getNumCases(); }
176*67e74705SXin Li };
CGOpenMPTaskOutlinedRegionInfo(const CapturedStmt & CS,const VarDecl * ThreadIDVar,const RegionCodeGenTy & CodeGen,OpenMPDirectiveKind Kind,bool HasCancel,const UntiedTaskActionTy & Action)177*67e74705SXin Li CGOpenMPTaskOutlinedRegionInfo(const CapturedStmt &CS,
178*67e74705SXin Li const VarDecl *ThreadIDVar,
179*67e74705SXin Li const RegionCodeGenTy &CodeGen,
180*67e74705SXin Li OpenMPDirectiveKind Kind, bool HasCancel,
181*67e74705SXin Li const UntiedTaskActionTy &Action)
182*67e74705SXin Li : CGOpenMPRegionInfo(CS, TaskOutlinedRegion, CodeGen, Kind, HasCancel),
183*67e74705SXin Li ThreadIDVar(ThreadIDVar), Action(Action) {
184*67e74705SXin Li assert(ThreadIDVar != nullptr && "No ThreadID in OpenMP region.");
185*67e74705SXin Li }
186*67e74705SXin Li
187*67e74705SXin Li /// \brief Get a variable or parameter for storing global thread id
188*67e74705SXin Li /// inside OpenMP construct.
getThreadIDVariable() const189*67e74705SXin Li const VarDecl *getThreadIDVariable() const override { return ThreadIDVar; }
190*67e74705SXin Li
191*67e74705SXin Li /// \brief Get an LValue for the current ThreadID variable.
192*67e74705SXin Li LValue getThreadIDVariableLValue(CodeGenFunction &CGF) override;
193*67e74705SXin Li
194*67e74705SXin Li /// \brief Get the name of the capture helper.
getHelperName() const195*67e74705SXin Li StringRef getHelperName() const override { return ".omp_outlined."; }
196*67e74705SXin Li
emitUntiedSwitch(CodeGenFunction & CGF)197*67e74705SXin Li void emitUntiedSwitch(CodeGenFunction &CGF) override {
198*67e74705SXin Li Action.emitUntiedSwitch(CGF);
199*67e74705SXin Li }
200*67e74705SXin Li
classof(const CGCapturedStmtInfo * Info)201*67e74705SXin Li static bool classof(const CGCapturedStmtInfo *Info) {
202*67e74705SXin Li return CGOpenMPRegionInfo::classof(Info) &&
203*67e74705SXin Li cast<CGOpenMPRegionInfo>(Info)->getRegionKind() ==
204*67e74705SXin Li TaskOutlinedRegion;
205*67e74705SXin Li }
206*67e74705SXin Li
207*67e74705SXin Li private:
208*67e74705SXin Li /// \brief A variable or parameter storing global thread id for OpenMP
209*67e74705SXin Li /// constructs.
210*67e74705SXin Li const VarDecl *ThreadIDVar;
211*67e74705SXin Li /// Action for emitting code for untied tasks.
212*67e74705SXin Li const UntiedTaskActionTy &Action;
213*67e74705SXin Li };
214*67e74705SXin Li
215*67e74705SXin Li /// \brief API for inlined captured statement code generation in OpenMP
216*67e74705SXin Li /// constructs.
217*67e74705SXin Li class CGOpenMPInlinedRegionInfo : public CGOpenMPRegionInfo {
218*67e74705SXin Li public:
CGOpenMPInlinedRegionInfo(CodeGenFunction::CGCapturedStmtInfo * OldCSI,const RegionCodeGenTy & CodeGen,OpenMPDirectiveKind Kind,bool HasCancel)219*67e74705SXin Li CGOpenMPInlinedRegionInfo(CodeGenFunction::CGCapturedStmtInfo *OldCSI,
220*67e74705SXin Li const RegionCodeGenTy &CodeGen,
221*67e74705SXin Li OpenMPDirectiveKind Kind, bool HasCancel)
222*67e74705SXin Li : CGOpenMPRegionInfo(InlinedRegion, CodeGen, Kind, HasCancel),
223*67e74705SXin Li OldCSI(OldCSI),
224*67e74705SXin Li OuterRegionInfo(dyn_cast_or_null<CGOpenMPRegionInfo>(OldCSI)) {}
225*67e74705SXin Li
226*67e74705SXin Li // \brief Retrieve the value of the context parameter.
getContextValue() const227*67e74705SXin Li llvm::Value *getContextValue() const override {
228*67e74705SXin Li if (OuterRegionInfo)
229*67e74705SXin Li return OuterRegionInfo->getContextValue();
230*67e74705SXin Li llvm_unreachable("No context value for inlined OpenMP region");
231*67e74705SXin Li }
232*67e74705SXin Li
setContextValue(llvm::Value * V)233*67e74705SXin Li void setContextValue(llvm::Value *V) override {
234*67e74705SXin Li if (OuterRegionInfo) {
235*67e74705SXin Li OuterRegionInfo->setContextValue(V);
236*67e74705SXin Li return;
237*67e74705SXin Li }
238*67e74705SXin Li llvm_unreachable("No context value for inlined OpenMP region");
239*67e74705SXin Li }
240*67e74705SXin Li
241*67e74705SXin Li /// \brief Lookup the captured field decl for a variable.
lookup(const VarDecl * VD) const242*67e74705SXin Li const FieldDecl *lookup(const VarDecl *VD) const override {
243*67e74705SXin Li if (OuterRegionInfo)
244*67e74705SXin Li return OuterRegionInfo->lookup(VD);
245*67e74705SXin Li // If there is no outer outlined region,no need to lookup in a list of
246*67e74705SXin Li // captured variables, we can use the original one.
247*67e74705SXin Li return nullptr;
248*67e74705SXin Li }
249*67e74705SXin Li
getThisFieldDecl() const250*67e74705SXin Li FieldDecl *getThisFieldDecl() const override {
251*67e74705SXin Li if (OuterRegionInfo)
252*67e74705SXin Li return OuterRegionInfo->getThisFieldDecl();
253*67e74705SXin Li return nullptr;
254*67e74705SXin Li }
255*67e74705SXin Li
256*67e74705SXin Li /// \brief Get a variable or parameter for storing global thread id
257*67e74705SXin Li /// inside OpenMP construct.
getThreadIDVariable() const258*67e74705SXin Li const VarDecl *getThreadIDVariable() const override {
259*67e74705SXin Li if (OuterRegionInfo)
260*67e74705SXin Li return OuterRegionInfo->getThreadIDVariable();
261*67e74705SXin Li return nullptr;
262*67e74705SXin Li }
263*67e74705SXin Li
264*67e74705SXin Li /// \brief Get the name of the capture helper.
getHelperName() const265*67e74705SXin Li StringRef getHelperName() const override {
266*67e74705SXin Li if (auto *OuterRegionInfo = getOldCSI())
267*67e74705SXin Li return OuterRegionInfo->getHelperName();
268*67e74705SXin Li llvm_unreachable("No helper name for inlined OpenMP construct");
269*67e74705SXin Li }
270*67e74705SXin Li
emitUntiedSwitch(CodeGenFunction & CGF)271*67e74705SXin Li void emitUntiedSwitch(CodeGenFunction &CGF) override {
272*67e74705SXin Li if (OuterRegionInfo)
273*67e74705SXin Li OuterRegionInfo->emitUntiedSwitch(CGF);
274*67e74705SXin Li }
275*67e74705SXin Li
getOldCSI() const276*67e74705SXin Li CodeGenFunction::CGCapturedStmtInfo *getOldCSI() const { return OldCSI; }
277*67e74705SXin Li
classof(const CGCapturedStmtInfo * Info)278*67e74705SXin Li static bool classof(const CGCapturedStmtInfo *Info) {
279*67e74705SXin Li return CGOpenMPRegionInfo::classof(Info) &&
280*67e74705SXin Li cast<CGOpenMPRegionInfo>(Info)->getRegionKind() == InlinedRegion;
281*67e74705SXin Li }
282*67e74705SXin Li
283*67e74705SXin Li ~CGOpenMPInlinedRegionInfo() override = default;
284*67e74705SXin Li
285*67e74705SXin Li private:
286*67e74705SXin Li /// \brief CodeGen info about outer OpenMP region.
287*67e74705SXin Li CodeGenFunction::CGCapturedStmtInfo *OldCSI;
288*67e74705SXin Li CGOpenMPRegionInfo *OuterRegionInfo;
289*67e74705SXin Li };
290*67e74705SXin Li
291*67e74705SXin Li /// \brief API for captured statement code generation in OpenMP target
292*67e74705SXin Li /// constructs. For this captures, implicit parameters are used instead of the
293*67e74705SXin Li /// captured fields. The name of the target region has to be unique in a given
294*67e74705SXin Li /// application so it is provided by the client, because only the client has
295*67e74705SXin Li /// the information to generate that.
296*67e74705SXin Li class CGOpenMPTargetRegionInfo final : public CGOpenMPRegionInfo {
297*67e74705SXin Li public:
CGOpenMPTargetRegionInfo(const CapturedStmt & CS,const RegionCodeGenTy & CodeGen,StringRef HelperName)298*67e74705SXin Li CGOpenMPTargetRegionInfo(const CapturedStmt &CS,
299*67e74705SXin Li const RegionCodeGenTy &CodeGen, StringRef HelperName)
300*67e74705SXin Li : CGOpenMPRegionInfo(CS, TargetRegion, CodeGen, OMPD_target,
301*67e74705SXin Li /*HasCancel=*/false),
302*67e74705SXin Li HelperName(HelperName) {}
303*67e74705SXin Li
304*67e74705SXin Li /// \brief This is unused for target regions because each starts executing
305*67e74705SXin Li /// with a single thread.
getThreadIDVariable() const306*67e74705SXin Li const VarDecl *getThreadIDVariable() const override { return nullptr; }
307*67e74705SXin Li
308*67e74705SXin Li /// \brief Get the name of the capture helper.
getHelperName() const309*67e74705SXin Li StringRef getHelperName() const override { return HelperName; }
310*67e74705SXin Li
classof(const CGCapturedStmtInfo * Info)311*67e74705SXin Li static bool classof(const CGCapturedStmtInfo *Info) {
312*67e74705SXin Li return CGOpenMPRegionInfo::classof(Info) &&
313*67e74705SXin Li cast<CGOpenMPRegionInfo>(Info)->getRegionKind() == TargetRegion;
314*67e74705SXin Li }
315*67e74705SXin Li
316*67e74705SXin Li private:
317*67e74705SXin Li StringRef HelperName;
318*67e74705SXin Li };
319*67e74705SXin Li
EmptyCodeGen(CodeGenFunction &,PrePostActionTy &)320*67e74705SXin Li static void EmptyCodeGen(CodeGenFunction &, PrePostActionTy &) {
321*67e74705SXin Li llvm_unreachable("No codegen for expressions");
322*67e74705SXin Li }
323*67e74705SXin Li /// \brief API for generation of expressions captured in a innermost OpenMP
324*67e74705SXin Li /// region.
325*67e74705SXin Li class CGOpenMPInnerExprInfo final : public CGOpenMPInlinedRegionInfo {
326*67e74705SXin Li public:
CGOpenMPInnerExprInfo(CodeGenFunction & CGF,const CapturedStmt & CS)327*67e74705SXin Li CGOpenMPInnerExprInfo(CodeGenFunction &CGF, const CapturedStmt &CS)
328*67e74705SXin Li : CGOpenMPInlinedRegionInfo(CGF.CapturedStmtInfo, EmptyCodeGen,
329*67e74705SXin Li OMPD_unknown,
330*67e74705SXin Li /*HasCancel=*/false),
331*67e74705SXin Li PrivScope(CGF) {
332*67e74705SXin Li // Make sure the globals captured in the provided statement are local by
333*67e74705SXin Li // using the privatization logic. We assume the same variable is not
334*67e74705SXin Li // captured more than once.
335*67e74705SXin Li for (auto &C : CS.captures()) {
336*67e74705SXin Li if (!C.capturesVariable() && !C.capturesVariableByCopy())
337*67e74705SXin Li continue;
338*67e74705SXin Li
339*67e74705SXin Li const VarDecl *VD = C.getCapturedVar();
340*67e74705SXin Li if (VD->isLocalVarDeclOrParm())
341*67e74705SXin Li continue;
342*67e74705SXin Li
343*67e74705SXin Li DeclRefExpr DRE(const_cast<VarDecl *>(VD),
344*67e74705SXin Li /*RefersToEnclosingVariableOrCapture=*/false,
345*67e74705SXin Li VD->getType().getNonReferenceType(), VK_LValue,
346*67e74705SXin Li SourceLocation());
347*67e74705SXin Li PrivScope.addPrivate(VD, [&CGF, &DRE]() -> Address {
348*67e74705SXin Li return CGF.EmitLValue(&DRE).getAddress();
349*67e74705SXin Li });
350*67e74705SXin Li }
351*67e74705SXin Li (void)PrivScope.Privatize();
352*67e74705SXin Li }
353*67e74705SXin Li
354*67e74705SXin Li /// \brief Lookup the captured field decl for a variable.
lookup(const VarDecl * VD) const355*67e74705SXin Li const FieldDecl *lookup(const VarDecl *VD) const override {
356*67e74705SXin Li if (auto *FD = CGOpenMPInlinedRegionInfo::lookup(VD))
357*67e74705SXin Li return FD;
358*67e74705SXin Li return nullptr;
359*67e74705SXin Li }
360*67e74705SXin Li
361*67e74705SXin Li /// \brief Emit the captured statement body.
EmitBody(CodeGenFunction & CGF,const Stmt * S)362*67e74705SXin Li void EmitBody(CodeGenFunction &CGF, const Stmt *S) override {
363*67e74705SXin Li llvm_unreachable("No body for expressions");
364*67e74705SXin Li }
365*67e74705SXin Li
366*67e74705SXin Li /// \brief Get a variable or parameter for storing global thread id
367*67e74705SXin Li /// inside OpenMP construct.
getThreadIDVariable() const368*67e74705SXin Li const VarDecl *getThreadIDVariable() const override {
369*67e74705SXin Li llvm_unreachable("No thread id for expressions");
370*67e74705SXin Li }
371*67e74705SXin Li
372*67e74705SXin Li /// \brief Get the name of the capture helper.
getHelperName() const373*67e74705SXin Li StringRef getHelperName() const override {
374*67e74705SXin Li llvm_unreachable("No helper name for expressions");
375*67e74705SXin Li }
376*67e74705SXin Li
classof(const CGCapturedStmtInfo * Info)377*67e74705SXin Li static bool classof(const CGCapturedStmtInfo *Info) { return false; }
378*67e74705SXin Li
379*67e74705SXin Li private:
380*67e74705SXin Li /// Private scope to capture global variables.
381*67e74705SXin Li CodeGenFunction::OMPPrivateScope PrivScope;
382*67e74705SXin Li };
383*67e74705SXin Li
384*67e74705SXin Li /// \brief RAII for emitting code of OpenMP constructs.
385*67e74705SXin Li class InlinedOpenMPRegionRAII {
386*67e74705SXin Li CodeGenFunction &CGF;
387*67e74705SXin Li llvm::DenseMap<const VarDecl *, FieldDecl *> LambdaCaptureFields;
388*67e74705SXin Li FieldDecl *LambdaThisCaptureField = nullptr;
389*67e74705SXin Li
390*67e74705SXin Li public:
391*67e74705SXin Li /// \brief Constructs region for combined constructs.
392*67e74705SXin Li /// \param CodeGen Code generation sequence for combined directives. Includes
393*67e74705SXin Li /// a list of functions used for code generation of implicitly inlined
394*67e74705SXin Li /// regions.
InlinedOpenMPRegionRAII(CodeGenFunction & CGF,const RegionCodeGenTy & CodeGen,OpenMPDirectiveKind Kind,bool HasCancel)395*67e74705SXin Li InlinedOpenMPRegionRAII(CodeGenFunction &CGF, const RegionCodeGenTy &CodeGen,
396*67e74705SXin Li OpenMPDirectiveKind Kind, bool HasCancel)
397*67e74705SXin Li : CGF(CGF) {
398*67e74705SXin Li // Start emission for the construct.
399*67e74705SXin Li CGF.CapturedStmtInfo = new CGOpenMPInlinedRegionInfo(
400*67e74705SXin Li CGF.CapturedStmtInfo, CodeGen, Kind, HasCancel);
401*67e74705SXin Li std::swap(CGF.LambdaCaptureFields, LambdaCaptureFields);
402*67e74705SXin Li LambdaThisCaptureField = CGF.LambdaThisCaptureField;
403*67e74705SXin Li CGF.LambdaThisCaptureField = nullptr;
404*67e74705SXin Li }
405*67e74705SXin Li
~InlinedOpenMPRegionRAII()406*67e74705SXin Li ~InlinedOpenMPRegionRAII() {
407*67e74705SXin Li // Restore original CapturedStmtInfo only if we're done with code emission.
408*67e74705SXin Li auto *OldCSI =
409*67e74705SXin Li cast<CGOpenMPInlinedRegionInfo>(CGF.CapturedStmtInfo)->getOldCSI();
410*67e74705SXin Li delete CGF.CapturedStmtInfo;
411*67e74705SXin Li CGF.CapturedStmtInfo = OldCSI;
412*67e74705SXin Li std::swap(CGF.LambdaCaptureFields, LambdaCaptureFields);
413*67e74705SXin Li CGF.LambdaThisCaptureField = LambdaThisCaptureField;
414*67e74705SXin Li }
415*67e74705SXin Li };
416*67e74705SXin Li
417*67e74705SXin Li /// \brief Values for bit flags used in the ident_t to describe the fields.
418*67e74705SXin Li /// All enumeric elements are named and described in accordance with the code
419*67e74705SXin Li /// from http://llvm.org/svn/llvm-project/openmp/trunk/runtime/src/kmp.h
420*67e74705SXin Li enum OpenMPLocationFlags {
421*67e74705SXin Li /// \brief Use trampoline for internal microtask.
422*67e74705SXin Li OMP_IDENT_IMD = 0x01,
423*67e74705SXin Li /// \brief Use c-style ident structure.
424*67e74705SXin Li OMP_IDENT_KMPC = 0x02,
425*67e74705SXin Li /// \brief Atomic reduction option for kmpc_reduce.
426*67e74705SXin Li OMP_ATOMIC_REDUCE = 0x10,
427*67e74705SXin Li /// \brief Explicit 'barrier' directive.
428*67e74705SXin Li OMP_IDENT_BARRIER_EXPL = 0x20,
429*67e74705SXin Li /// \brief Implicit barrier in code.
430*67e74705SXin Li OMP_IDENT_BARRIER_IMPL = 0x40,
431*67e74705SXin Li /// \brief Implicit barrier in 'for' directive.
432*67e74705SXin Li OMP_IDENT_BARRIER_IMPL_FOR = 0x40,
433*67e74705SXin Li /// \brief Implicit barrier in 'sections' directive.
434*67e74705SXin Li OMP_IDENT_BARRIER_IMPL_SECTIONS = 0xC0,
435*67e74705SXin Li /// \brief Implicit barrier in 'single' directive.
436*67e74705SXin Li OMP_IDENT_BARRIER_IMPL_SINGLE = 0x140
437*67e74705SXin Li };
438*67e74705SXin Li
439*67e74705SXin Li /// \brief Describes ident structure that describes a source location.
440*67e74705SXin Li /// All descriptions are taken from
441*67e74705SXin Li /// http://llvm.org/svn/llvm-project/openmp/trunk/runtime/src/kmp.h
442*67e74705SXin Li /// Original structure:
443*67e74705SXin Li /// typedef struct ident {
444*67e74705SXin Li /// kmp_int32 reserved_1; /**< might be used in Fortran;
445*67e74705SXin Li /// see above */
446*67e74705SXin Li /// kmp_int32 flags; /**< also f.flags; KMP_IDENT_xxx flags;
447*67e74705SXin Li /// KMP_IDENT_KMPC identifies this union
448*67e74705SXin Li /// member */
449*67e74705SXin Li /// kmp_int32 reserved_2; /**< not really used in Fortran any more;
450*67e74705SXin Li /// see above */
451*67e74705SXin Li ///#if USE_ITT_BUILD
452*67e74705SXin Li /// /* but currently used for storing
453*67e74705SXin Li /// region-specific ITT */
454*67e74705SXin Li /// /* contextual information. */
455*67e74705SXin Li ///#endif /* USE_ITT_BUILD */
456*67e74705SXin Li /// kmp_int32 reserved_3; /**< source[4] in Fortran, do not use for
457*67e74705SXin Li /// C++ */
458*67e74705SXin Li /// char const *psource; /**< String describing the source location.
459*67e74705SXin Li /// The string is composed of semi-colon separated
460*67e74705SXin Li // fields which describe the source file,
461*67e74705SXin Li /// the function and a pair of line numbers that
462*67e74705SXin Li /// delimit the construct.
463*67e74705SXin Li /// */
464*67e74705SXin Li /// } ident_t;
465*67e74705SXin Li enum IdentFieldIndex {
466*67e74705SXin Li /// \brief might be used in Fortran
467*67e74705SXin Li IdentField_Reserved_1,
468*67e74705SXin Li /// \brief OMP_IDENT_xxx flags; OMP_IDENT_KMPC identifies this union member.
469*67e74705SXin Li IdentField_Flags,
470*67e74705SXin Li /// \brief Not really used in Fortran any more
471*67e74705SXin Li IdentField_Reserved_2,
472*67e74705SXin Li /// \brief Source[4] in Fortran, do not use for C++
473*67e74705SXin Li IdentField_Reserved_3,
474*67e74705SXin Li /// \brief String describing the source location. The string is composed of
475*67e74705SXin Li /// semi-colon separated fields which describe the source file, the function
476*67e74705SXin Li /// and a pair of line numbers that delimit the construct.
477*67e74705SXin Li IdentField_PSource
478*67e74705SXin Li };
479*67e74705SXin Li
480*67e74705SXin Li /// \brief Schedule types for 'omp for' loops (these enumerators are taken from
481*67e74705SXin Li /// the enum sched_type in kmp.h).
482*67e74705SXin Li enum OpenMPSchedType {
483*67e74705SXin Li /// \brief Lower bound for default (unordered) versions.
484*67e74705SXin Li OMP_sch_lower = 32,
485*67e74705SXin Li OMP_sch_static_chunked = 33,
486*67e74705SXin Li OMP_sch_static = 34,
487*67e74705SXin Li OMP_sch_dynamic_chunked = 35,
488*67e74705SXin Li OMP_sch_guided_chunked = 36,
489*67e74705SXin Li OMP_sch_runtime = 37,
490*67e74705SXin Li OMP_sch_auto = 38,
491*67e74705SXin Li /// static with chunk adjustment (e.g., simd)
492*67e74705SXin Li OMP_sch_static_balanced_chunked = 45,
493*67e74705SXin Li /// \brief Lower bound for 'ordered' versions.
494*67e74705SXin Li OMP_ord_lower = 64,
495*67e74705SXin Li OMP_ord_static_chunked = 65,
496*67e74705SXin Li OMP_ord_static = 66,
497*67e74705SXin Li OMP_ord_dynamic_chunked = 67,
498*67e74705SXin Li OMP_ord_guided_chunked = 68,
499*67e74705SXin Li OMP_ord_runtime = 69,
500*67e74705SXin Li OMP_ord_auto = 70,
501*67e74705SXin Li OMP_sch_default = OMP_sch_static,
502*67e74705SXin Li /// \brief dist_schedule types
503*67e74705SXin Li OMP_dist_sch_static_chunked = 91,
504*67e74705SXin Li OMP_dist_sch_static = 92,
505*67e74705SXin Li /// Support for OpenMP 4.5 monotonic and nonmonotonic schedule modifiers.
506*67e74705SXin Li /// Set if the monotonic schedule modifier was present.
507*67e74705SXin Li OMP_sch_modifier_monotonic = (1 << 29),
508*67e74705SXin Li /// Set if the nonmonotonic schedule modifier was present.
509*67e74705SXin Li OMP_sch_modifier_nonmonotonic = (1 << 30),
510*67e74705SXin Li };
511*67e74705SXin Li
512*67e74705SXin Li enum OpenMPRTLFunction {
513*67e74705SXin Li /// \brief Call to void __kmpc_fork_call(ident_t *loc, kmp_int32 argc,
514*67e74705SXin Li /// kmpc_micro microtask, ...);
515*67e74705SXin Li OMPRTL__kmpc_fork_call,
516*67e74705SXin Li /// \brief Call to void *__kmpc_threadprivate_cached(ident_t *loc,
517*67e74705SXin Li /// kmp_int32 global_tid, void *data, size_t size, void ***cache);
518*67e74705SXin Li OMPRTL__kmpc_threadprivate_cached,
519*67e74705SXin Li /// \brief Call to void __kmpc_threadprivate_register( ident_t *,
520*67e74705SXin Li /// void *data, kmpc_ctor ctor, kmpc_cctor cctor, kmpc_dtor dtor);
521*67e74705SXin Li OMPRTL__kmpc_threadprivate_register,
522*67e74705SXin Li // Call to __kmpc_int32 kmpc_global_thread_num(ident_t *loc);
523*67e74705SXin Li OMPRTL__kmpc_global_thread_num,
524*67e74705SXin Li // Call to void __kmpc_critical(ident_t *loc, kmp_int32 global_tid,
525*67e74705SXin Li // kmp_critical_name *crit);
526*67e74705SXin Li OMPRTL__kmpc_critical,
527*67e74705SXin Li // Call to void __kmpc_critical_with_hint(ident_t *loc, kmp_int32
528*67e74705SXin Li // global_tid, kmp_critical_name *crit, uintptr_t hint);
529*67e74705SXin Li OMPRTL__kmpc_critical_with_hint,
530*67e74705SXin Li // Call to void __kmpc_end_critical(ident_t *loc, kmp_int32 global_tid,
531*67e74705SXin Li // kmp_critical_name *crit);
532*67e74705SXin Li OMPRTL__kmpc_end_critical,
533*67e74705SXin Li // Call to kmp_int32 __kmpc_cancel_barrier(ident_t *loc, kmp_int32
534*67e74705SXin Li // global_tid);
535*67e74705SXin Li OMPRTL__kmpc_cancel_barrier,
536*67e74705SXin Li // Call to void __kmpc_barrier(ident_t *loc, kmp_int32 global_tid);
537*67e74705SXin Li OMPRTL__kmpc_barrier,
538*67e74705SXin Li // Call to void __kmpc_for_static_fini(ident_t *loc, kmp_int32 global_tid);
539*67e74705SXin Li OMPRTL__kmpc_for_static_fini,
540*67e74705SXin Li // Call to void __kmpc_serialized_parallel(ident_t *loc, kmp_int32
541*67e74705SXin Li // global_tid);
542*67e74705SXin Li OMPRTL__kmpc_serialized_parallel,
543*67e74705SXin Li // Call to void __kmpc_end_serialized_parallel(ident_t *loc, kmp_int32
544*67e74705SXin Li // global_tid);
545*67e74705SXin Li OMPRTL__kmpc_end_serialized_parallel,
546*67e74705SXin Li // Call to void __kmpc_push_num_threads(ident_t *loc, kmp_int32 global_tid,
547*67e74705SXin Li // kmp_int32 num_threads);
548*67e74705SXin Li OMPRTL__kmpc_push_num_threads,
549*67e74705SXin Li // Call to void __kmpc_flush(ident_t *loc);
550*67e74705SXin Li OMPRTL__kmpc_flush,
551*67e74705SXin Li // Call to kmp_int32 __kmpc_master(ident_t *, kmp_int32 global_tid);
552*67e74705SXin Li OMPRTL__kmpc_master,
553*67e74705SXin Li // Call to void __kmpc_end_master(ident_t *, kmp_int32 global_tid);
554*67e74705SXin Li OMPRTL__kmpc_end_master,
555*67e74705SXin Li // Call to kmp_int32 __kmpc_omp_taskyield(ident_t *, kmp_int32 global_tid,
556*67e74705SXin Li // int end_part);
557*67e74705SXin Li OMPRTL__kmpc_omp_taskyield,
558*67e74705SXin Li // Call to kmp_int32 __kmpc_single(ident_t *, kmp_int32 global_tid);
559*67e74705SXin Li OMPRTL__kmpc_single,
560*67e74705SXin Li // Call to void __kmpc_end_single(ident_t *, kmp_int32 global_tid);
561*67e74705SXin Li OMPRTL__kmpc_end_single,
562*67e74705SXin Li // Call to kmp_task_t * __kmpc_omp_task_alloc(ident_t *, kmp_int32 gtid,
563*67e74705SXin Li // kmp_int32 flags, size_t sizeof_kmp_task_t, size_t sizeof_shareds,
564*67e74705SXin Li // kmp_routine_entry_t *task_entry);
565*67e74705SXin Li OMPRTL__kmpc_omp_task_alloc,
566*67e74705SXin Li // Call to kmp_int32 __kmpc_omp_task(ident_t *, kmp_int32 gtid, kmp_task_t *
567*67e74705SXin Li // new_task);
568*67e74705SXin Li OMPRTL__kmpc_omp_task,
569*67e74705SXin Li // Call to void __kmpc_copyprivate(ident_t *loc, kmp_int32 global_tid,
570*67e74705SXin Li // size_t cpy_size, void *cpy_data, void(*cpy_func)(void *, void *),
571*67e74705SXin Li // kmp_int32 didit);
572*67e74705SXin Li OMPRTL__kmpc_copyprivate,
573*67e74705SXin Li // Call to kmp_int32 __kmpc_reduce(ident_t *loc, kmp_int32 global_tid,
574*67e74705SXin Li // kmp_int32 num_vars, size_t reduce_size, void *reduce_data, void
575*67e74705SXin Li // (*reduce_func)(void *lhs_data, void *rhs_data), kmp_critical_name *lck);
576*67e74705SXin Li OMPRTL__kmpc_reduce,
577*67e74705SXin Li // Call to kmp_int32 __kmpc_reduce_nowait(ident_t *loc, kmp_int32
578*67e74705SXin Li // global_tid, kmp_int32 num_vars, size_t reduce_size, void *reduce_data,
579*67e74705SXin Li // void (*reduce_func)(void *lhs_data, void *rhs_data), kmp_critical_name
580*67e74705SXin Li // *lck);
581*67e74705SXin Li OMPRTL__kmpc_reduce_nowait,
582*67e74705SXin Li // Call to void __kmpc_end_reduce(ident_t *loc, kmp_int32 global_tid,
583*67e74705SXin Li // kmp_critical_name *lck);
584*67e74705SXin Li OMPRTL__kmpc_end_reduce,
585*67e74705SXin Li // Call to void __kmpc_end_reduce_nowait(ident_t *loc, kmp_int32 global_tid,
586*67e74705SXin Li // kmp_critical_name *lck);
587*67e74705SXin Li OMPRTL__kmpc_end_reduce_nowait,
588*67e74705SXin Li // Call to void __kmpc_omp_task_begin_if0(ident_t *, kmp_int32 gtid,
589*67e74705SXin Li // kmp_task_t * new_task);
590*67e74705SXin Li OMPRTL__kmpc_omp_task_begin_if0,
591*67e74705SXin Li // Call to void __kmpc_omp_task_complete_if0(ident_t *, kmp_int32 gtid,
592*67e74705SXin Li // kmp_task_t * new_task);
593*67e74705SXin Li OMPRTL__kmpc_omp_task_complete_if0,
594*67e74705SXin Li // Call to void __kmpc_ordered(ident_t *loc, kmp_int32 global_tid);
595*67e74705SXin Li OMPRTL__kmpc_ordered,
596*67e74705SXin Li // Call to void __kmpc_end_ordered(ident_t *loc, kmp_int32 global_tid);
597*67e74705SXin Li OMPRTL__kmpc_end_ordered,
598*67e74705SXin Li // Call to kmp_int32 __kmpc_omp_taskwait(ident_t *loc, kmp_int32
599*67e74705SXin Li // global_tid);
600*67e74705SXin Li OMPRTL__kmpc_omp_taskwait,
601*67e74705SXin Li // Call to void __kmpc_taskgroup(ident_t *loc, kmp_int32 global_tid);
602*67e74705SXin Li OMPRTL__kmpc_taskgroup,
603*67e74705SXin Li // Call to void __kmpc_end_taskgroup(ident_t *loc, kmp_int32 global_tid);
604*67e74705SXin Li OMPRTL__kmpc_end_taskgroup,
605*67e74705SXin Li // Call to void __kmpc_push_proc_bind(ident_t *loc, kmp_int32 global_tid,
606*67e74705SXin Li // int proc_bind);
607*67e74705SXin Li OMPRTL__kmpc_push_proc_bind,
608*67e74705SXin Li // Call to kmp_int32 __kmpc_omp_task_with_deps(ident_t *loc_ref, kmp_int32
609*67e74705SXin Li // gtid, kmp_task_t * new_task, kmp_int32 ndeps, kmp_depend_info_t
610*67e74705SXin Li // *dep_list, kmp_int32 ndeps_noalias, kmp_depend_info_t *noalias_dep_list);
611*67e74705SXin Li OMPRTL__kmpc_omp_task_with_deps,
612*67e74705SXin Li // Call to void __kmpc_omp_wait_deps(ident_t *loc_ref, kmp_int32
613*67e74705SXin Li // gtid, kmp_int32 ndeps, kmp_depend_info_t *dep_list, kmp_int32
614*67e74705SXin Li // ndeps_noalias, kmp_depend_info_t *noalias_dep_list);
615*67e74705SXin Li OMPRTL__kmpc_omp_wait_deps,
616*67e74705SXin Li // Call to kmp_int32 __kmpc_cancellationpoint(ident_t *loc, kmp_int32
617*67e74705SXin Li // global_tid, kmp_int32 cncl_kind);
618*67e74705SXin Li OMPRTL__kmpc_cancellationpoint,
619*67e74705SXin Li // Call to kmp_int32 __kmpc_cancel(ident_t *loc, kmp_int32 global_tid,
620*67e74705SXin Li // kmp_int32 cncl_kind);
621*67e74705SXin Li OMPRTL__kmpc_cancel,
622*67e74705SXin Li // Call to void __kmpc_push_num_teams(ident_t *loc, kmp_int32 global_tid,
623*67e74705SXin Li // kmp_int32 num_teams, kmp_int32 thread_limit);
624*67e74705SXin Li OMPRTL__kmpc_push_num_teams,
625*67e74705SXin Li // Call to void __kmpc_fork_teams(ident_t *loc, kmp_int32 argc, kmpc_micro
626*67e74705SXin Li // microtask, ...);
627*67e74705SXin Li OMPRTL__kmpc_fork_teams,
628*67e74705SXin Li // Call to void __kmpc_taskloop(ident_t *loc, int gtid, kmp_task_t *task, int
629*67e74705SXin Li // if_val, kmp_uint64 *lb, kmp_uint64 *ub, kmp_int64 st, int nogroup, int
630*67e74705SXin Li // sched, kmp_uint64 grainsize, void *task_dup);
631*67e74705SXin Li OMPRTL__kmpc_taskloop,
632*67e74705SXin Li // Call to void __kmpc_doacross_init(ident_t *loc, kmp_int32 gtid, kmp_int32
633*67e74705SXin Li // num_dims, struct kmp_dim *dims);
634*67e74705SXin Li OMPRTL__kmpc_doacross_init,
635*67e74705SXin Li // Call to void __kmpc_doacross_fini(ident_t *loc, kmp_int32 gtid);
636*67e74705SXin Li OMPRTL__kmpc_doacross_fini,
637*67e74705SXin Li // Call to void __kmpc_doacross_post(ident_t *loc, kmp_int32 gtid, kmp_int64
638*67e74705SXin Li // *vec);
639*67e74705SXin Li OMPRTL__kmpc_doacross_post,
640*67e74705SXin Li // Call to void __kmpc_doacross_wait(ident_t *loc, kmp_int32 gtid, kmp_int64
641*67e74705SXin Li // *vec);
642*67e74705SXin Li OMPRTL__kmpc_doacross_wait,
643*67e74705SXin Li
644*67e74705SXin Li //
645*67e74705SXin Li // Offloading related calls
646*67e74705SXin Li //
647*67e74705SXin Li // Call to int32_t __tgt_target(int32_t device_id, void *host_ptr, int32_t
648*67e74705SXin Li // arg_num, void** args_base, void **args, size_t *arg_sizes, int32_t
649*67e74705SXin Li // *arg_types);
650*67e74705SXin Li OMPRTL__tgt_target,
651*67e74705SXin Li // Call to int32_t __tgt_target_teams(int32_t device_id, void *host_ptr,
652*67e74705SXin Li // int32_t arg_num, void** args_base, void **args, size_t *arg_sizes,
653*67e74705SXin Li // int32_t *arg_types, int32_t num_teams, int32_t thread_limit);
654*67e74705SXin Li OMPRTL__tgt_target_teams,
655*67e74705SXin Li // Call to void __tgt_register_lib(__tgt_bin_desc *desc);
656*67e74705SXin Li OMPRTL__tgt_register_lib,
657*67e74705SXin Li // Call to void __tgt_unregister_lib(__tgt_bin_desc *desc);
658*67e74705SXin Li OMPRTL__tgt_unregister_lib,
659*67e74705SXin Li // Call to void __tgt_target_data_begin(int32_t device_id, int32_t arg_num,
660*67e74705SXin Li // void** args_base, void **args, size_t *arg_sizes, int32_t *arg_types);
661*67e74705SXin Li OMPRTL__tgt_target_data_begin,
662*67e74705SXin Li // Call to void __tgt_target_data_end(int32_t device_id, int32_t arg_num,
663*67e74705SXin Li // void** args_base, void **args, size_t *arg_sizes, int32_t *arg_types);
664*67e74705SXin Li OMPRTL__tgt_target_data_end,
665*67e74705SXin Li // Call to void __tgt_target_data_update(int32_t device_id, int32_t arg_num,
666*67e74705SXin Li // void** args_base, void **args, size_t *arg_sizes, int32_t *arg_types);
667*67e74705SXin Li OMPRTL__tgt_target_data_update,
668*67e74705SXin Li };
669*67e74705SXin Li
670*67e74705SXin Li /// A basic class for pre|post-action for advanced codegen sequence for OpenMP
671*67e74705SXin Li /// region.
672*67e74705SXin Li class CleanupTy final : public EHScopeStack::Cleanup {
673*67e74705SXin Li PrePostActionTy *Action;
674*67e74705SXin Li
675*67e74705SXin Li public:
CleanupTy(PrePostActionTy * Action)676*67e74705SXin Li explicit CleanupTy(PrePostActionTy *Action) : Action(Action) {}
Emit(CodeGenFunction & CGF,Flags)677*67e74705SXin Li void Emit(CodeGenFunction &CGF, Flags /*flags*/) override {
678*67e74705SXin Li if (!CGF.HaveInsertPoint())
679*67e74705SXin Li return;
680*67e74705SXin Li Action->Exit(CGF);
681*67e74705SXin Li }
682*67e74705SXin Li };
683*67e74705SXin Li
684*67e74705SXin Li } // anonymous namespace
685*67e74705SXin Li
operator ()(CodeGenFunction & CGF) const686*67e74705SXin Li void RegionCodeGenTy::operator()(CodeGenFunction &CGF) const {
687*67e74705SXin Li CodeGenFunction::RunCleanupsScope Scope(CGF);
688*67e74705SXin Li if (PrePostAction) {
689*67e74705SXin Li CGF.EHStack.pushCleanup<CleanupTy>(NormalAndEHCleanup, PrePostAction);
690*67e74705SXin Li Callback(CodeGen, CGF, *PrePostAction);
691*67e74705SXin Li } else {
692*67e74705SXin Li PrePostActionTy Action;
693*67e74705SXin Li Callback(CodeGen, CGF, Action);
694*67e74705SXin Li }
695*67e74705SXin Li }
696*67e74705SXin Li
getThreadIDVariableLValue(CodeGenFunction & CGF)697*67e74705SXin Li LValue CGOpenMPRegionInfo::getThreadIDVariableLValue(CodeGenFunction &CGF) {
698*67e74705SXin Li return CGF.EmitLoadOfPointerLValue(
699*67e74705SXin Li CGF.GetAddrOfLocalVar(getThreadIDVariable()),
700*67e74705SXin Li getThreadIDVariable()->getType()->castAs<PointerType>());
701*67e74705SXin Li }
702*67e74705SXin Li
EmitBody(CodeGenFunction & CGF,const Stmt *)703*67e74705SXin Li void CGOpenMPRegionInfo::EmitBody(CodeGenFunction &CGF, const Stmt * /*S*/) {
704*67e74705SXin Li if (!CGF.HaveInsertPoint())
705*67e74705SXin Li return;
706*67e74705SXin Li // 1.2.2 OpenMP Language Terminology
707*67e74705SXin Li // Structured block - An executable statement with a single entry at the
708*67e74705SXin Li // top and a single exit at the bottom.
709*67e74705SXin Li // The point of exit cannot be a branch out of the structured block.
710*67e74705SXin Li // longjmp() and throw() must not violate the entry/exit criteria.
711*67e74705SXin Li CGF.EHStack.pushTerminate();
712*67e74705SXin Li CodeGen(CGF);
713*67e74705SXin Li CGF.EHStack.popTerminate();
714*67e74705SXin Li }
715*67e74705SXin Li
getThreadIDVariableLValue(CodeGenFunction & CGF)716*67e74705SXin Li LValue CGOpenMPTaskOutlinedRegionInfo::getThreadIDVariableLValue(
717*67e74705SXin Li CodeGenFunction &CGF) {
718*67e74705SXin Li return CGF.MakeAddrLValue(CGF.GetAddrOfLocalVar(getThreadIDVariable()),
719*67e74705SXin Li getThreadIDVariable()->getType(),
720*67e74705SXin Li AlignmentSource::Decl);
721*67e74705SXin Li }
722*67e74705SXin Li
CGOpenMPRuntime(CodeGenModule & CGM)723*67e74705SXin Li CGOpenMPRuntime::CGOpenMPRuntime(CodeGenModule &CGM)
724*67e74705SXin Li : CGM(CGM), OffloadEntriesInfoManager(CGM) {
725*67e74705SXin Li IdentTy = llvm::StructType::create(
726*67e74705SXin Li "ident_t", CGM.Int32Ty /* reserved_1 */, CGM.Int32Ty /* flags */,
727*67e74705SXin Li CGM.Int32Ty /* reserved_2 */, CGM.Int32Ty /* reserved_3 */,
728*67e74705SXin Li CGM.Int8PtrTy /* psource */, nullptr);
729*67e74705SXin Li KmpCriticalNameTy = llvm::ArrayType::get(CGM.Int32Ty, /*NumElements*/ 8);
730*67e74705SXin Li
731*67e74705SXin Li loadOffloadInfoMetadata();
732*67e74705SXin Li }
733*67e74705SXin Li
clear()734*67e74705SXin Li void CGOpenMPRuntime::clear() {
735*67e74705SXin Li InternalVars.clear();
736*67e74705SXin Li }
737*67e74705SXin Li
738*67e74705SXin Li static llvm::Function *
emitCombinerOrInitializer(CodeGenModule & CGM,QualType Ty,const Expr * CombinerInitializer,const VarDecl * In,const VarDecl * Out,bool IsCombiner)739*67e74705SXin Li emitCombinerOrInitializer(CodeGenModule &CGM, QualType Ty,
740*67e74705SXin Li const Expr *CombinerInitializer, const VarDecl *In,
741*67e74705SXin Li const VarDecl *Out, bool IsCombiner) {
742*67e74705SXin Li // void .omp_combiner.(Ty *in, Ty *out);
743*67e74705SXin Li auto &C = CGM.getContext();
744*67e74705SXin Li QualType PtrTy = C.getPointerType(Ty).withRestrict();
745*67e74705SXin Li FunctionArgList Args;
746*67e74705SXin Li ImplicitParamDecl OmpOutParm(C, /*DC=*/nullptr, Out->getLocation(),
747*67e74705SXin Li /*Id=*/nullptr, PtrTy);
748*67e74705SXin Li ImplicitParamDecl OmpInParm(C, /*DC=*/nullptr, In->getLocation(),
749*67e74705SXin Li /*Id=*/nullptr, PtrTy);
750*67e74705SXin Li Args.push_back(&OmpOutParm);
751*67e74705SXin Li Args.push_back(&OmpInParm);
752*67e74705SXin Li auto &FnInfo =
753*67e74705SXin Li CGM.getTypes().arrangeBuiltinFunctionDeclaration(C.VoidTy, Args);
754*67e74705SXin Li auto *FnTy = CGM.getTypes().GetFunctionType(FnInfo);
755*67e74705SXin Li auto *Fn = llvm::Function::Create(
756*67e74705SXin Li FnTy, llvm::GlobalValue::InternalLinkage,
757*67e74705SXin Li IsCombiner ? ".omp_combiner." : ".omp_initializer.", &CGM.getModule());
758*67e74705SXin Li CGM.SetInternalFunctionAttributes(/*D=*/nullptr, Fn, FnInfo);
759*67e74705SXin Li Fn->addFnAttr(llvm::Attribute::AlwaysInline);
760*67e74705SXin Li CodeGenFunction CGF(CGM);
761*67e74705SXin Li // Map "T omp_in;" variable to "*omp_in_parm" value in all expressions.
762*67e74705SXin Li // Map "T omp_out;" variable to "*omp_out_parm" value in all expressions.
763*67e74705SXin Li CGF.StartFunction(GlobalDecl(), C.VoidTy, Fn, FnInfo, Args);
764*67e74705SXin Li CodeGenFunction::OMPPrivateScope Scope(CGF);
765*67e74705SXin Li Address AddrIn = CGF.GetAddrOfLocalVar(&OmpInParm);
766*67e74705SXin Li Scope.addPrivate(In, [&CGF, AddrIn, PtrTy]() -> Address {
767*67e74705SXin Li return CGF.EmitLoadOfPointerLValue(AddrIn, PtrTy->castAs<PointerType>())
768*67e74705SXin Li .getAddress();
769*67e74705SXin Li });
770*67e74705SXin Li Address AddrOut = CGF.GetAddrOfLocalVar(&OmpOutParm);
771*67e74705SXin Li Scope.addPrivate(Out, [&CGF, AddrOut, PtrTy]() -> Address {
772*67e74705SXin Li return CGF.EmitLoadOfPointerLValue(AddrOut, PtrTy->castAs<PointerType>())
773*67e74705SXin Li .getAddress();
774*67e74705SXin Li });
775*67e74705SXin Li (void)Scope.Privatize();
776*67e74705SXin Li CGF.EmitIgnoredExpr(CombinerInitializer);
777*67e74705SXin Li Scope.ForceCleanup();
778*67e74705SXin Li CGF.FinishFunction();
779*67e74705SXin Li return Fn;
780*67e74705SXin Li }
781*67e74705SXin Li
emitUserDefinedReduction(CodeGenFunction * CGF,const OMPDeclareReductionDecl * D)782*67e74705SXin Li void CGOpenMPRuntime::emitUserDefinedReduction(
783*67e74705SXin Li CodeGenFunction *CGF, const OMPDeclareReductionDecl *D) {
784*67e74705SXin Li if (UDRMap.count(D) > 0)
785*67e74705SXin Li return;
786*67e74705SXin Li auto &C = CGM.getContext();
787*67e74705SXin Li if (!In || !Out) {
788*67e74705SXin Li In = &C.Idents.get("omp_in");
789*67e74705SXin Li Out = &C.Idents.get("omp_out");
790*67e74705SXin Li }
791*67e74705SXin Li llvm::Function *Combiner = emitCombinerOrInitializer(
792*67e74705SXin Li CGM, D->getType(), D->getCombiner(), cast<VarDecl>(D->lookup(In).front()),
793*67e74705SXin Li cast<VarDecl>(D->lookup(Out).front()),
794*67e74705SXin Li /*IsCombiner=*/true);
795*67e74705SXin Li llvm::Function *Initializer = nullptr;
796*67e74705SXin Li if (auto *Init = D->getInitializer()) {
797*67e74705SXin Li if (!Priv || !Orig) {
798*67e74705SXin Li Priv = &C.Idents.get("omp_priv");
799*67e74705SXin Li Orig = &C.Idents.get("omp_orig");
800*67e74705SXin Li }
801*67e74705SXin Li Initializer = emitCombinerOrInitializer(
802*67e74705SXin Li CGM, D->getType(), Init, cast<VarDecl>(D->lookup(Orig).front()),
803*67e74705SXin Li cast<VarDecl>(D->lookup(Priv).front()),
804*67e74705SXin Li /*IsCombiner=*/false);
805*67e74705SXin Li }
806*67e74705SXin Li UDRMap.insert(std::make_pair(D, std::make_pair(Combiner, Initializer)));
807*67e74705SXin Li if (CGF) {
808*67e74705SXin Li auto &Decls = FunctionUDRMap.FindAndConstruct(CGF->CurFn);
809*67e74705SXin Li Decls.second.push_back(D);
810*67e74705SXin Li }
811*67e74705SXin Li }
812*67e74705SXin Li
813*67e74705SXin Li std::pair<llvm::Function *, llvm::Function *>
getUserDefinedReduction(const OMPDeclareReductionDecl * D)814*67e74705SXin Li CGOpenMPRuntime::getUserDefinedReduction(const OMPDeclareReductionDecl *D) {
815*67e74705SXin Li auto I = UDRMap.find(D);
816*67e74705SXin Li if (I != UDRMap.end())
817*67e74705SXin Li return I->second;
818*67e74705SXin Li emitUserDefinedReduction(/*CGF=*/nullptr, D);
819*67e74705SXin Li return UDRMap.lookup(D);
820*67e74705SXin Li }
821*67e74705SXin Li
822*67e74705SXin Li // Layout information for ident_t.
getIdentAlign(CodeGenModule & CGM)823*67e74705SXin Li static CharUnits getIdentAlign(CodeGenModule &CGM) {
824*67e74705SXin Li return CGM.getPointerAlign();
825*67e74705SXin Li }
getIdentSize(CodeGenModule & CGM)826*67e74705SXin Li static CharUnits getIdentSize(CodeGenModule &CGM) {
827*67e74705SXin Li assert((4 * CGM.getPointerSize()).isMultipleOf(CGM.getPointerAlign()));
828*67e74705SXin Li return CharUnits::fromQuantity(16) + CGM.getPointerSize();
829*67e74705SXin Li }
getOffsetOfIdentField(IdentFieldIndex Field)830*67e74705SXin Li static CharUnits getOffsetOfIdentField(IdentFieldIndex Field) {
831*67e74705SXin Li // All the fields except the last are i32, so this works beautifully.
832*67e74705SXin Li return unsigned(Field) * CharUnits::fromQuantity(4);
833*67e74705SXin Li }
createIdentFieldGEP(CodeGenFunction & CGF,Address Addr,IdentFieldIndex Field,const llvm::Twine & Name="")834*67e74705SXin Li static Address createIdentFieldGEP(CodeGenFunction &CGF, Address Addr,
835*67e74705SXin Li IdentFieldIndex Field,
836*67e74705SXin Li const llvm::Twine &Name = "") {
837*67e74705SXin Li auto Offset = getOffsetOfIdentField(Field);
838*67e74705SXin Li return CGF.Builder.CreateStructGEP(Addr, Field, Offset, Name);
839*67e74705SXin Li }
840*67e74705SXin Li
emitParallelOrTeamsOutlinedFunction(const OMPExecutableDirective & D,const VarDecl * ThreadIDVar,OpenMPDirectiveKind InnermostKind,const RegionCodeGenTy & CodeGen)841*67e74705SXin Li llvm::Value *CGOpenMPRuntime::emitParallelOrTeamsOutlinedFunction(
842*67e74705SXin Li const OMPExecutableDirective &D, const VarDecl *ThreadIDVar,
843*67e74705SXin Li OpenMPDirectiveKind InnermostKind, const RegionCodeGenTy &CodeGen) {
844*67e74705SXin Li assert(ThreadIDVar->getType()->isPointerType() &&
845*67e74705SXin Li "thread id variable must be of type kmp_int32 *");
846*67e74705SXin Li const CapturedStmt *CS = cast<CapturedStmt>(D.getAssociatedStmt());
847*67e74705SXin Li CodeGenFunction CGF(CGM, true);
848*67e74705SXin Li bool HasCancel = false;
849*67e74705SXin Li if (auto *OPD = dyn_cast<OMPParallelDirective>(&D))
850*67e74705SXin Li HasCancel = OPD->hasCancel();
851*67e74705SXin Li else if (auto *OPSD = dyn_cast<OMPParallelSectionsDirective>(&D))
852*67e74705SXin Li HasCancel = OPSD->hasCancel();
853*67e74705SXin Li else if (auto *OPFD = dyn_cast<OMPParallelForDirective>(&D))
854*67e74705SXin Li HasCancel = OPFD->hasCancel();
855*67e74705SXin Li CGOpenMPOutlinedRegionInfo CGInfo(*CS, ThreadIDVar, CodeGen, InnermostKind,
856*67e74705SXin Li HasCancel);
857*67e74705SXin Li CodeGenFunction::CGCapturedStmtRAII CapInfoRAII(CGF, &CGInfo);
858*67e74705SXin Li return CGF.GenerateOpenMPCapturedStmtFunction(*CS);
859*67e74705SXin Li }
860*67e74705SXin Li
emitTaskOutlinedFunction(const OMPExecutableDirective & D,const VarDecl * ThreadIDVar,const VarDecl * PartIDVar,const VarDecl * TaskTVar,OpenMPDirectiveKind InnermostKind,const RegionCodeGenTy & CodeGen,bool Tied,unsigned & NumberOfParts)861*67e74705SXin Li llvm::Value *CGOpenMPRuntime::emitTaskOutlinedFunction(
862*67e74705SXin Li const OMPExecutableDirective &D, const VarDecl *ThreadIDVar,
863*67e74705SXin Li const VarDecl *PartIDVar, const VarDecl *TaskTVar,
864*67e74705SXin Li OpenMPDirectiveKind InnermostKind, const RegionCodeGenTy &CodeGen,
865*67e74705SXin Li bool Tied, unsigned &NumberOfParts) {
866*67e74705SXin Li auto &&UntiedCodeGen = [this, &D, TaskTVar](CodeGenFunction &CGF,
867*67e74705SXin Li PrePostActionTy &) {
868*67e74705SXin Li auto *ThreadID = getThreadID(CGF, D.getLocStart());
869*67e74705SXin Li auto *UpLoc = emitUpdateLocation(CGF, D.getLocStart());
870*67e74705SXin Li llvm::Value *TaskArgs[] = {
871*67e74705SXin Li UpLoc, ThreadID,
872*67e74705SXin Li CGF.EmitLoadOfPointerLValue(CGF.GetAddrOfLocalVar(TaskTVar),
873*67e74705SXin Li TaskTVar->getType()->castAs<PointerType>())
874*67e74705SXin Li .getPointer()};
875*67e74705SXin Li CGF.EmitRuntimeCall(createRuntimeFunction(OMPRTL__kmpc_omp_task), TaskArgs);
876*67e74705SXin Li };
877*67e74705SXin Li CGOpenMPTaskOutlinedRegionInfo::UntiedTaskActionTy Action(Tied, PartIDVar,
878*67e74705SXin Li UntiedCodeGen);
879*67e74705SXin Li CodeGen.setAction(Action);
880*67e74705SXin Li assert(!ThreadIDVar->getType()->isPointerType() &&
881*67e74705SXin Li "thread id variable must be of type kmp_int32 for tasks");
882*67e74705SXin Li auto *CS = cast<CapturedStmt>(D.getAssociatedStmt());
883*67e74705SXin Li auto *TD = dyn_cast<OMPTaskDirective>(&D);
884*67e74705SXin Li CodeGenFunction CGF(CGM, true);
885*67e74705SXin Li CGOpenMPTaskOutlinedRegionInfo CGInfo(*CS, ThreadIDVar, CodeGen,
886*67e74705SXin Li InnermostKind,
887*67e74705SXin Li TD ? TD->hasCancel() : false, Action);
888*67e74705SXin Li CodeGenFunction::CGCapturedStmtRAII CapInfoRAII(CGF, &CGInfo);
889*67e74705SXin Li auto *Res = CGF.GenerateCapturedStmtFunction(*CS);
890*67e74705SXin Li if (!Tied)
891*67e74705SXin Li NumberOfParts = Action.getNumberOfParts();
892*67e74705SXin Li return Res;
893*67e74705SXin Li }
894*67e74705SXin Li
getOrCreateDefaultLocation(unsigned Flags)895*67e74705SXin Li Address CGOpenMPRuntime::getOrCreateDefaultLocation(unsigned Flags) {
896*67e74705SXin Li CharUnits Align = getIdentAlign(CGM);
897*67e74705SXin Li llvm::Value *Entry = OpenMPDefaultLocMap.lookup(Flags);
898*67e74705SXin Li if (!Entry) {
899*67e74705SXin Li if (!DefaultOpenMPPSource) {
900*67e74705SXin Li // Initialize default location for psource field of ident_t structure of
901*67e74705SXin Li // all ident_t objects. Format is ";file;function;line;column;;".
902*67e74705SXin Li // Taken from
903*67e74705SXin Li // http://llvm.org/svn/llvm-project/openmp/trunk/runtime/src/kmp_str.c
904*67e74705SXin Li DefaultOpenMPPSource =
905*67e74705SXin Li CGM.GetAddrOfConstantCString(";unknown;unknown;0;0;;").getPointer();
906*67e74705SXin Li DefaultOpenMPPSource =
907*67e74705SXin Li llvm::ConstantExpr::getBitCast(DefaultOpenMPPSource, CGM.Int8PtrTy);
908*67e74705SXin Li }
909*67e74705SXin Li auto DefaultOpenMPLocation = new llvm::GlobalVariable(
910*67e74705SXin Li CGM.getModule(), IdentTy, /*isConstant*/ true,
911*67e74705SXin Li llvm::GlobalValue::PrivateLinkage, /*Initializer*/ nullptr);
912*67e74705SXin Li DefaultOpenMPLocation->setUnnamedAddr(llvm::GlobalValue::UnnamedAddr::Global);
913*67e74705SXin Li DefaultOpenMPLocation->setAlignment(Align.getQuantity());
914*67e74705SXin Li
915*67e74705SXin Li llvm::Constant *Zero = llvm::ConstantInt::get(CGM.Int32Ty, 0, true);
916*67e74705SXin Li llvm::Constant *Values[] = {Zero,
917*67e74705SXin Li llvm::ConstantInt::get(CGM.Int32Ty, Flags),
918*67e74705SXin Li Zero, Zero, DefaultOpenMPPSource};
919*67e74705SXin Li llvm::Constant *Init = llvm::ConstantStruct::get(IdentTy, Values);
920*67e74705SXin Li DefaultOpenMPLocation->setInitializer(Init);
921*67e74705SXin Li OpenMPDefaultLocMap[Flags] = Entry = DefaultOpenMPLocation;
922*67e74705SXin Li }
923*67e74705SXin Li return Address(Entry, Align);
924*67e74705SXin Li }
925*67e74705SXin Li
emitUpdateLocation(CodeGenFunction & CGF,SourceLocation Loc,unsigned Flags)926*67e74705SXin Li llvm::Value *CGOpenMPRuntime::emitUpdateLocation(CodeGenFunction &CGF,
927*67e74705SXin Li SourceLocation Loc,
928*67e74705SXin Li unsigned Flags) {
929*67e74705SXin Li Flags |= OMP_IDENT_KMPC;
930*67e74705SXin Li // If no debug info is generated - return global default location.
931*67e74705SXin Li if (CGM.getCodeGenOpts().getDebugInfo() == codegenoptions::NoDebugInfo ||
932*67e74705SXin Li Loc.isInvalid())
933*67e74705SXin Li return getOrCreateDefaultLocation(Flags).getPointer();
934*67e74705SXin Li
935*67e74705SXin Li assert(CGF.CurFn && "No function in current CodeGenFunction.");
936*67e74705SXin Li
937*67e74705SXin Li Address LocValue = Address::invalid();
938*67e74705SXin Li auto I = OpenMPLocThreadIDMap.find(CGF.CurFn);
939*67e74705SXin Li if (I != OpenMPLocThreadIDMap.end())
940*67e74705SXin Li LocValue = Address(I->second.DebugLoc, getIdentAlign(CGF.CGM));
941*67e74705SXin Li
942*67e74705SXin Li // OpenMPLocThreadIDMap may have null DebugLoc and non-null ThreadID, if
943*67e74705SXin Li // GetOpenMPThreadID was called before this routine.
944*67e74705SXin Li if (!LocValue.isValid()) {
945*67e74705SXin Li // Generate "ident_t .kmpc_loc.addr;"
946*67e74705SXin Li Address AI = CGF.CreateTempAlloca(IdentTy, getIdentAlign(CGF.CGM),
947*67e74705SXin Li ".kmpc_loc.addr");
948*67e74705SXin Li auto &Elem = OpenMPLocThreadIDMap.FindAndConstruct(CGF.CurFn);
949*67e74705SXin Li Elem.second.DebugLoc = AI.getPointer();
950*67e74705SXin Li LocValue = AI;
951*67e74705SXin Li
952*67e74705SXin Li CGBuilderTy::InsertPointGuard IPG(CGF.Builder);
953*67e74705SXin Li CGF.Builder.SetInsertPoint(CGF.AllocaInsertPt);
954*67e74705SXin Li CGF.Builder.CreateMemCpy(LocValue, getOrCreateDefaultLocation(Flags),
955*67e74705SXin Li CGM.getSize(getIdentSize(CGF.CGM)));
956*67e74705SXin Li }
957*67e74705SXin Li
958*67e74705SXin Li // char **psource = &.kmpc_loc_<flags>.addr.psource;
959*67e74705SXin Li Address PSource = createIdentFieldGEP(CGF, LocValue, IdentField_PSource);
960*67e74705SXin Li
961*67e74705SXin Li auto OMPDebugLoc = OpenMPDebugLocMap.lookup(Loc.getRawEncoding());
962*67e74705SXin Li if (OMPDebugLoc == nullptr) {
963*67e74705SXin Li SmallString<128> Buffer2;
964*67e74705SXin Li llvm::raw_svector_ostream OS2(Buffer2);
965*67e74705SXin Li // Build debug location
966*67e74705SXin Li PresumedLoc PLoc = CGF.getContext().getSourceManager().getPresumedLoc(Loc);
967*67e74705SXin Li OS2 << ";" << PLoc.getFilename() << ";";
968*67e74705SXin Li if (const FunctionDecl *FD =
969*67e74705SXin Li dyn_cast_or_null<FunctionDecl>(CGF.CurFuncDecl)) {
970*67e74705SXin Li OS2 << FD->getQualifiedNameAsString();
971*67e74705SXin Li }
972*67e74705SXin Li OS2 << ";" << PLoc.getLine() << ";" << PLoc.getColumn() << ";;";
973*67e74705SXin Li OMPDebugLoc = CGF.Builder.CreateGlobalStringPtr(OS2.str());
974*67e74705SXin Li OpenMPDebugLocMap[Loc.getRawEncoding()] = OMPDebugLoc;
975*67e74705SXin Li }
976*67e74705SXin Li // *psource = ";<File>;<Function>;<Line>;<Column>;;";
977*67e74705SXin Li CGF.Builder.CreateStore(OMPDebugLoc, PSource);
978*67e74705SXin Li
979*67e74705SXin Li // Our callers always pass this to a runtime function, so for
980*67e74705SXin Li // convenience, go ahead and return a naked pointer.
981*67e74705SXin Li return LocValue.getPointer();
982*67e74705SXin Li }
983*67e74705SXin Li
getThreadID(CodeGenFunction & CGF,SourceLocation Loc)984*67e74705SXin Li llvm::Value *CGOpenMPRuntime::getThreadID(CodeGenFunction &CGF,
985*67e74705SXin Li SourceLocation Loc) {
986*67e74705SXin Li assert(CGF.CurFn && "No function in current CodeGenFunction.");
987*67e74705SXin Li
988*67e74705SXin Li llvm::Value *ThreadID = nullptr;
989*67e74705SXin Li // Check whether we've already cached a load of the thread id in this
990*67e74705SXin Li // function.
991*67e74705SXin Li auto I = OpenMPLocThreadIDMap.find(CGF.CurFn);
992*67e74705SXin Li if (I != OpenMPLocThreadIDMap.end()) {
993*67e74705SXin Li ThreadID = I->second.ThreadID;
994*67e74705SXin Li if (ThreadID != nullptr)
995*67e74705SXin Li return ThreadID;
996*67e74705SXin Li }
997*67e74705SXin Li if (auto *OMPRegionInfo =
998*67e74705SXin Li dyn_cast_or_null<CGOpenMPRegionInfo>(CGF.CapturedStmtInfo)) {
999*67e74705SXin Li if (OMPRegionInfo->getThreadIDVariable()) {
1000*67e74705SXin Li // Check if this an outlined function with thread id passed as argument.
1001*67e74705SXin Li auto LVal = OMPRegionInfo->getThreadIDVariableLValue(CGF);
1002*67e74705SXin Li ThreadID = CGF.EmitLoadOfLValue(LVal, Loc).getScalarVal();
1003*67e74705SXin Li // If value loaded in entry block, cache it and use it everywhere in
1004*67e74705SXin Li // function.
1005*67e74705SXin Li if (CGF.Builder.GetInsertBlock() == CGF.AllocaInsertPt->getParent()) {
1006*67e74705SXin Li auto &Elem = OpenMPLocThreadIDMap.FindAndConstruct(CGF.CurFn);
1007*67e74705SXin Li Elem.second.ThreadID = ThreadID;
1008*67e74705SXin Li }
1009*67e74705SXin Li return ThreadID;
1010*67e74705SXin Li }
1011*67e74705SXin Li }
1012*67e74705SXin Li
1013*67e74705SXin Li // This is not an outlined function region - need to call __kmpc_int32
1014*67e74705SXin Li // kmpc_global_thread_num(ident_t *loc).
1015*67e74705SXin Li // Generate thread id value and cache this value for use across the
1016*67e74705SXin Li // function.
1017*67e74705SXin Li CGBuilderTy::InsertPointGuard IPG(CGF.Builder);
1018*67e74705SXin Li CGF.Builder.SetInsertPoint(CGF.AllocaInsertPt);
1019*67e74705SXin Li ThreadID =
1020*67e74705SXin Li CGF.EmitRuntimeCall(createRuntimeFunction(OMPRTL__kmpc_global_thread_num),
1021*67e74705SXin Li emitUpdateLocation(CGF, Loc));
1022*67e74705SXin Li auto &Elem = OpenMPLocThreadIDMap.FindAndConstruct(CGF.CurFn);
1023*67e74705SXin Li Elem.second.ThreadID = ThreadID;
1024*67e74705SXin Li return ThreadID;
1025*67e74705SXin Li }
1026*67e74705SXin Li
functionFinished(CodeGenFunction & CGF)1027*67e74705SXin Li void CGOpenMPRuntime::functionFinished(CodeGenFunction &CGF) {
1028*67e74705SXin Li assert(CGF.CurFn && "No function in current CodeGenFunction.");
1029*67e74705SXin Li if (OpenMPLocThreadIDMap.count(CGF.CurFn))
1030*67e74705SXin Li OpenMPLocThreadIDMap.erase(CGF.CurFn);
1031*67e74705SXin Li if (FunctionUDRMap.count(CGF.CurFn) > 0) {
1032*67e74705SXin Li for(auto *D : FunctionUDRMap[CGF.CurFn]) {
1033*67e74705SXin Li UDRMap.erase(D);
1034*67e74705SXin Li }
1035*67e74705SXin Li FunctionUDRMap.erase(CGF.CurFn);
1036*67e74705SXin Li }
1037*67e74705SXin Li }
1038*67e74705SXin Li
getIdentTyPointerTy()1039*67e74705SXin Li llvm::Type *CGOpenMPRuntime::getIdentTyPointerTy() {
1040*67e74705SXin Li if (!IdentTy) {
1041*67e74705SXin Li }
1042*67e74705SXin Li return llvm::PointerType::getUnqual(IdentTy);
1043*67e74705SXin Li }
1044*67e74705SXin Li
getKmpc_MicroPointerTy()1045*67e74705SXin Li llvm::Type *CGOpenMPRuntime::getKmpc_MicroPointerTy() {
1046*67e74705SXin Li if (!Kmpc_MicroTy) {
1047*67e74705SXin Li // Build void (*kmpc_micro)(kmp_int32 *global_tid, kmp_int32 *bound_tid,...)
1048*67e74705SXin Li llvm::Type *MicroParams[] = {llvm::PointerType::getUnqual(CGM.Int32Ty),
1049*67e74705SXin Li llvm::PointerType::getUnqual(CGM.Int32Ty)};
1050*67e74705SXin Li Kmpc_MicroTy = llvm::FunctionType::get(CGM.VoidTy, MicroParams, true);
1051*67e74705SXin Li }
1052*67e74705SXin Li return llvm::PointerType::getUnqual(Kmpc_MicroTy);
1053*67e74705SXin Li }
1054*67e74705SXin Li
1055*67e74705SXin Li llvm::Constant *
createRuntimeFunction(unsigned Function)1056*67e74705SXin Li CGOpenMPRuntime::createRuntimeFunction(unsigned Function) {
1057*67e74705SXin Li llvm::Constant *RTLFn = nullptr;
1058*67e74705SXin Li switch (static_cast<OpenMPRTLFunction>(Function)) {
1059*67e74705SXin Li case OMPRTL__kmpc_fork_call: {
1060*67e74705SXin Li // Build void __kmpc_fork_call(ident_t *loc, kmp_int32 argc, kmpc_micro
1061*67e74705SXin Li // microtask, ...);
1062*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty,
1063*67e74705SXin Li getKmpc_MicroPointerTy()};
1064*67e74705SXin Li llvm::FunctionType *FnTy =
1065*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg*/ true);
1066*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_fork_call");
1067*67e74705SXin Li break;
1068*67e74705SXin Li }
1069*67e74705SXin Li case OMPRTL__kmpc_global_thread_num: {
1070*67e74705SXin Li // Build kmp_int32 __kmpc_global_thread_num(ident_t *loc);
1071*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy()};
1072*67e74705SXin Li llvm::FunctionType *FnTy =
1073*67e74705SXin Li llvm::FunctionType::get(CGM.Int32Ty, TypeParams, /*isVarArg*/ false);
1074*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_global_thread_num");
1075*67e74705SXin Li break;
1076*67e74705SXin Li }
1077*67e74705SXin Li case OMPRTL__kmpc_threadprivate_cached: {
1078*67e74705SXin Li // Build void *__kmpc_threadprivate_cached(ident_t *loc,
1079*67e74705SXin Li // kmp_int32 global_tid, void *data, size_t size, void ***cache);
1080*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty,
1081*67e74705SXin Li CGM.VoidPtrTy, CGM.SizeTy,
1082*67e74705SXin Li CGM.VoidPtrTy->getPointerTo()->getPointerTo()};
1083*67e74705SXin Li llvm::FunctionType *FnTy =
1084*67e74705SXin Li llvm::FunctionType::get(CGM.VoidPtrTy, TypeParams, /*isVarArg*/ false);
1085*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_threadprivate_cached");
1086*67e74705SXin Li break;
1087*67e74705SXin Li }
1088*67e74705SXin Li case OMPRTL__kmpc_critical: {
1089*67e74705SXin Li // Build void __kmpc_critical(ident_t *loc, kmp_int32 global_tid,
1090*67e74705SXin Li // kmp_critical_name *crit);
1091*67e74705SXin Li llvm::Type *TypeParams[] = {
1092*67e74705SXin Li getIdentTyPointerTy(), CGM.Int32Ty,
1093*67e74705SXin Li llvm::PointerType::getUnqual(KmpCriticalNameTy)};
1094*67e74705SXin Li llvm::FunctionType *FnTy =
1095*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg*/ false);
1096*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_critical");
1097*67e74705SXin Li break;
1098*67e74705SXin Li }
1099*67e74705SXin Li case OMPRTL__kmpc_critical_with_hint: {
1100*67e74705SXin Li // Build void __kmpc_critical_with_hint(ident_t *loc, kmp_int32 global_tid,
1101*67e74705SXin Li // kmp_critical_name *crit, uintptr_t hint);
1102*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty,
1103*67e74705SXin Li llvm::PointerType::getUnqual(KmpCriticalNameTy),
1104*67e74705SXin Li CGM.IntPtrTy};
1105*67e74705SXin Li llvm::FunctionType *FnTy =
1106*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg*/ false);
1107*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_critical_with_hint");
1108*67e74705SXin Li break;
1109*67e74705SXin Li }
1110*67e74705SXin Li case OMPRTL__kmpc_threadprivate_register: {
1111*67e74705SXin Li // Build void __kmpc_threadprivate_register(ident_t *, void *data,
1112*67e74705SXin Li // kmpc_ctor ctor, kmpc_cctor cctor, kmpc_dtor dtor);
1113*67e74705SXin Li // typedef void *(*kmpc_ctor)(void *);
1114*67e74705SXin Li auto KmpcCtorTy =
1115*67e74705SXin Li llvm::FunctionType::get(CGM.VoidPtrTy, CGM.VoidPtrTy,
1116*67e74705SXin Li /*isVarArg*/ false)->getPointerTo();
1117*67e74705SXin Li // typedef void *(*kmpc_cctor)(void *, void *);
1118*67e74705SXin Li llvm::Type *KmpcCopyCtorTyArgs[] = {CGM.VoidPtrTy, CGM.VoidPtrTy};
1119*67e74705SXin Li auto KmpcCopyCtorTy =
1120*67e74705SXin Li llvm::FunctionType::get(CGM.VoidPtrTy, KmpcCopyCtorTyArgs,
1121*67e74705SXin Li /*isVarArg*/ false)->getPointerTo();
1122*67e74705SXin Li // typedef void (*kmpc_dtor)(void *);
1123*67e74705SXin Li auto KmpcDtorTy =
1124*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, CGM.VoidPtrTy, /*isVarArg*/ false)
1125*67e74705SXin Li ->getPointerTo();
1126*67e74705SXin Li llvm::Type *FnTyArgs[] = {getIdentTyPointerTy(), CGM.VoidPtrTy, KmpcCtorTy,
1127*67e74705SXin Li KmpcCopyCtorTy, KmpcDtorTy};
1128*67e74705SXin Li auto FnTy = llvm::FunctionType::get(CGM.VoidTy, FnTyArgs,
1129*67e74705SXin Li /*isVarArg*/ false);
1130*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_threadprivate_register");
1131*67e74705SXin Li break;
1132*67e74705SXin Li }
1133*67e74705SXin Li case OMPRTL__kmpc_end_critical: {
1134*67e74705SXin Li // Build void __kmpc_end_critical(ident_t *loc, kmp_int32 global_tid,
1135*67e74705SXin Li // kmp_critical_name *crit);
1136*67e74705SXin Li llvm::Type *TypeParams[] = {
1137*67e74705SXin Li getIdentTyPointerTy(), CGM.Int32Ty,
1138*67e74705SXin Li llvm::PointerType::getUnqual(KmpCriticalNameTy)};
1139*67e74705SXin Li llvm::FunctionType *FnTy =
1140*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg*/ false);
1141*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_end_critical");
1142*67e74705SXin Li break;
1143*67e74705SXin Li }
1144*67e74705SXin Li case OMPRTL__kmpc_cancel_barrier: {
1145*67e74705SXin Li // Build kmp_int32 __kmpc_cancel_barrier(ident_t *loc, kmp_int32
1146*67e74705SXin Li // global_tid);
1147*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty};
1148*67e74705SXin Li llvm::FunctionType *FnTy =
1149*67e74705SXin Li llvm::FunctionType::get(CGM.Int32Ty, TypeParams, /*isVarArg*/ false);
1150*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, /*Name*/ "__kmpc_cancel_barrier");
1151*67e74705SXin Li break;
1152*67e74705SXin Li }
1153*67e74705SXin Li case OMPRTL__kmpc_barrier: {
1154*67e74705SXin Li // Build void __kmpc_barrier(ident_t *loc, kmp_int32 global_tid);
1155*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty};
1156*67e74705SXin Li llvm::FunctionType *FnTy =
1157*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg*/ false);
1158*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, /*Name*/ "__kmpc_barrier");
1159*67e74705SXin Li break;
1160*67e74705SXin Li }
1161*67e74705SXin Li case OMPRTL__kmpc_for_static_fini: {
1162*67e74705SXin Li // Build void __kmpc_for_static_fini(ident_t *loc, kmp_int32 global_tid);
1163*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty};
1164*67e74705SXin Li llvm::FunctionType *FnTy =
1165*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg*/ false);
1166*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_for_static_fini");
1167*67e74705SXin Li break;
1168*67e74705SXin Li }
1169*67e74705SXin Li case OMPRTL__kmpc_push_num_threads: {
1170*67e74705SXin Li // Build void __kmpc_push_num_threads(ident_t *loc, kmp_int32 global_tid,
1171*67e74705SXin Li // kmp_int32 num_threads)
1172*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty,
1173*67e74705SXin Li CGM.Int32Ty};
1174*67e74705SXin Li llvm::FunctionType *FnTy =
1175*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg*/ false);
1176*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_push_num_threads");
1177*67e74705SXin Li break;
1178*67e74705SXin Li }
1179*67e74705SXin Li case OMPRTL__kmpc_serialized_parallel: {
1180*67e74705SXin Li // Build void __kmpc_serialized_parallel(ident_t *loc, kmp_int32
1181*67e74705SXin Li // global_tid);
1182*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty};
1183*67e74705SXin Li llvm::FunctionType *FnTy =
1184*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg*/ false);
1185*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_serialized_parallel");
1186*67e74705SXin Li break;
1187*67e74705SXin Li }
1188*67e74705SXin Li case OMPRTL__kmpc_end_serialized_parallel: {
1189*67e74705SXin Li // Build void __kmpc_end_serialized_parallel(ident_t *loc, kmp_int32
1190*67e74705SXin Li // global_tid);
1191*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty};
1192*67e74705SXin Li llvm::FunctionType *FnTy =
1193*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg*/ false);
1194*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_end_serialized_parallel");
1195*67e74705SXin Li break;
1196*67e74705SXin Li }
1197*67e74705SXin Li case OMPRTL__kmpc_flush: {
1198*67e74705SXin Li // Build void __kmpc_flush(ident_t *loc);
1199*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy()};
1200*67e74705SXin Li llvm::FunctionType *FnTy =
1201*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg*/ false);
1202*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_flush");
1203*67e74705SXin Li break;
1204*67e74705SXin Li }
1205*67e74705SXin Li case OMPRTL__kmpc_master: {
1206*67e74705SXin Li // Build kmp_int32 __kmpc_master(ident_t *loc, kmp_int32 global_tid);
1207*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty};
1208*67e74705SXin Li llvm::FunctionType *FnTy =
1209*67e74705SXin Li llvm::FunctionType::get(CGM.Int32Ty, TypeParams, /*isVarArg=*/false);
1210*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, /*Name=*/"__kmpc_master");
1211*67e74705SXin Li break;
1212*67e74705SXin Li }
1213*67e74705SXin Li case OMPRTL__kmpc_end_master: {
1214*67e74705SXin Li // Build void __kmpc_end_master(ident_t *loc, kmp_int32 global_tid);
1215*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty};
1216*67e74705SXin Li llvm::FunctionType *FnTy =
1217*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg=*/false);
1218*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, /*Name=*/"__kmpc_end_master");
1219*67e74705SXin Li break;
1220*67e74705SXin Li }
1221*67e74705SXin Li case OMPRTL__kmpc_omp_taskyield: {
1222*67e74705SXin Li // Build kmp_int32 __kmpc_omp_taskyield(ident_t *, kmp_int32 global_tid,
1223*67e74705SXin Li // int end_part);
1224*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty, CGM.IntTy};
1225*67e74705SXin Li llvm::FunctionType *FnTy =
1226*67e74705SXin Li llvm::FunctionType::get(CGM.Int32Ty, TypeParams, /*isVarArg=*/false);
1227*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, /*Name=*/"__kmpc_omp_taskyield");
1228*67e74705SXin Li break;
1229*67e74705SXin Li }
1230*67e74705SXin Li case OMPRTL__kmpc_single: {
1231*67e74705SXin Li // Build kmp_int32 __kmpc_single(ident_t *loc, kmp_int32 global_tid);
1232*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty};
1233*67e74705SXin Li llvm::FunctionType *FnTy =
1234*67e74705SXin Li llvm::FunctionType::get(CGM.Int32Ty, TypeParams, /*isVarArg=*/false);
1235*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, /*Name=*/"__kmpc_single");
1236*67e74705SXin Li break;
1237*67e74705SXin Li }
1238*67e74705SXin Li case OMPRTL__kmpc_end_single: {
1239*67e74705SXin Li // Build void __kmpc_end_single(ident_t *loc, kmp_int32 global_tid);
1240*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty};
1241*67e74705SXin Li llvm::FunctionType *FnTy =
1242*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg=*/false);
1243*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, /*Name=*/"__kmpc_end_single");
1244*67e74705SXin Li break;
1245*67e74705SXin Li }
1246*67e74705SXin Li case OMPRTL__kmpc_omp_task_alloc: {
1247*67e74705SXin Li // Build kmp_task_t *__kmpc_omp_task_alloc(ident_t *, kmp_int32 gtid,
1248*67e74705SXin Li // kmp_int32 flags, size_t sizeof_kmp_task_t, size_t sizeof_shareds,
1249*67e74705SXin Li // kmp_routine_entry_t *task_entry);
1250*67e74705SXin Li assert(KmpRoutineEntryPtrTy != nullptr &&
1251*67e74705SXin Li "Type kmp_routine_entry_t must be created.");
1252*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty, CGM.Int32Ty,
1253*67e74705SXin Li CGM.SizeTy, CGM.SizeTy, KmpRoutineEntryPtrTy};
1254*67e74705SXin Li // Return void * and then cast to particular kmp_task_t type.
1255*67e74705SXin Li llvm::FunctionType *FnTy =
1256*67e74705SXin Li llvm::FunctionType::get(CGM.VoidPtrTy, TypeParams, /*isVarArg=*/false);
1257*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, /*Name=*/"__kmpc_omp_task_alloc");
1258*67e74705SXin Li break;
1259*67e74705SXin Li }
1260*67e74705SXin Li case OMPRTL__kmpc_omp_task: {
1261*67e74705SXin Li // Build kmp_int32 __kmpc_omp_task(ident_t *, kmp_int32 gtid, kmp_task_t
1262*67e74705SXin Li // *new_task);
1263*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty,
1264*67e74705SXin Li CGM.VoidPtrTy};
1265*67e74705SXin Li llvm::FunctionType *FnTy =
1266*67e74705SXin Li llvm::FunctionType::get(CGM.Int32Ty, TypeParams, /*isVarArg=*/false);
1267*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, /*Name=*/"__kmpc_omp_task");
1268*67e74705SXin Li break;
1269*67e74705SXin Li }
1270*67e74705SXin Li case OMPRTL__kmpc_copyprivate: {
1271*67e74705SXin Li // Build void __kmpc_copyprivate(ident_t *loc, kmp_int32 global_tid,
1272*67e74705SXin Li // size_t cpy_size, void *cpy_data, void(*cpy_func)(void *, void *),
1273*67e74705SXin Li // kmp_int32 didit);
1274*67e74705SXin Li llvm::Type *CpyTypeParams[] = {CGM.VoidPtrTy, CGM.VoidPtrTy};
1275*67e74705SXin Li auto *CpyFnTy =
1276*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, CpyTypeParams, /*isVarArg=*/false);
1277*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty, CGM.SizeTy,
1278*67e74705SXin Li CGM.VoidPtrTy, CpyFnTy->getPointerTo(),
1279*67e74705SXin Li CGM.Int32Ty};
1280*67e74705SXin Li llvm::FunctionType *FnTy =
1281*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg=*/false);
1282*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, /*Name=*/"__kmpc_copyprivate");
1283*67e74705SXin Li break;
1284*67e74705SXin Li }
1285*67e74705SXin Li case OMPRTL__kmpc_reduce: {
1286*67e74705SXin Li // Build kmp_int32 __kmpc_reduce(ident_t *loc, kmp_int32 global_tid,
1287*67e74705SXin Li // kmp_int32 num_vars, size_t reduce_size, void *reduce_data, void
1288*67e74705SXin Li // (*reduce_func)(void *lhs_data, void *rhs_data), kmp_critical_name *lck);
1289*67e74705SXin Li llvm::Type *ReduceTypeParams[] = {CGM.VoidPtrTy, CGM.VoidPtrTy};
1290*67e74705SXin Li auto *ReduceFnTy = llvm::FunctionType::get(CGM.VoidTy, ReduceTypeParams,
1291*67e74705SXin Li /*isVarArg=*/false);
1292*67e74705SXin Li llvm::Type *TypeParams[] = {
1293*67e74705SXin Li getIdentTyPointerTy(), CGM.Int32Ty, CGM.Int32Ty, CGM.SizeTy,
1294*67e74705SXin Li CGM.VoidPtrTy, ReduceFnTy->getPointerTo(),
1295*67e74705SXin Li llvm::PointerType::getUnqual(KmpCriticalNameTy)};
1296*67e74705SXin Li llvm::FunctionType *FnTy =
1297*67e74705SXin Li llvm::FunctionType::get(CGM.Int32Ty, TypeParams, /*isVarArg=*/false);
1298*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, /*Name=*/"__kmpc_reduce");
1299*67e74705SXin Li break;
1300*67e74705SXin Li }
1301*67e74705SXin Li case OMPRTL__kmpc_reduce_nowait: {
1302*67e74705SXin Li // Build kmp_int32 __kmpc_reduce_nowait(ident_t *loc, kmp_int32
1303*67e74705SXin Li // global_tid, kmp_int32 num_vars, size_t reduce_size, void *reduce_data,
1304*67e74705SXin Li // void (*reduce_func)(void *lhs_data, void *rhs_data), kmp_critical_name
1305*67e74705SXin Li // *lck);
1306*67e74705SXin Li llvm::Type *ReduceTypeParams[] = {CGM.VoidPtrTy, CGM.VoidPtrTy};
1307*67e74705SXin Li auto *ReduceFnTy = llvm::FunctionType::get(CGM.VoidTy, ReduceTypeParams,
1308*67e74705SXin Li /*isVarArg=*/false);
1309*67e74705SXin Li llvm::Type *TypeParams[] = {
1310*67e74705SXin Li getIdentTyPointerTy(), CGM.Int32Ty, CGM.Int32Ty, CGM.SizeTy,
1311*67e74705SXin Li CGM.VoidPtrTy, ReduceFnTy->getPointerTo(),
1312*67e74705SXin Li llvm::PointerType::getUnqual(KmpCriticalNameTy)};
1313*67e74705SXin Li llvm::FunctionType *FnTy =
1314*67e74705SXin Li llvm::FunctionType::get(CGM.Int32Ty, TypeParams, /*isVarArg=*/false);
1315*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, /*Name=*/"__kmpc_reduce_nowait");
1316*67e74705SXin Li break;
1317*67e74705SXin Li }
1318*67e74705SXin Li case OMPRTL__kmpc_end_reduce: {
1319*67e74705SXin Li // Build void __kmpc_end_reduce(ident_t *loc, kmp_int32 global_tid,
1320*67e74705SXin Li // kmp_critical_name *lck);
1321*67e74705SXin Li llvm::Type *TypeParams[] = {
1322*67e74705SXin Li getIdentTyPointerTy(), CGM.Int32Ty,
1323*67e74705SXin Li llvm::PointerType::getUnqual(KmpCriticalNameTy)};
1324*67e74705SXin Li llvm::FunctionType *FnTy =
1325*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg=*/false);
1326*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, /*Name=*/"__kmpc_end_reduce");
1327*67e74705SXin Li break;
1328*67e74705SXin Li }
1329*67e74705SXin Li case OMPRTL__kmpc_end_reduce_nowait: {
1330*67e74705SXin Li // Build __kmpc_end_reduce_nowait(ident_t *loc, kmp_int32 global_tid,
1331*67e74705SXin Li // kmp_critical_name *lck);
1332*67e74705SXin Li llvm::Type *TypeParams[] = {
1333*67e74705SXin Li getIdentTyPointerTy(), CGM.Int32Ty,
1334*67e74705SXin Li llvm::PointerType::getUnqual(KmpCriticalNameTy)};
1335*67e74705SXin Li llvm::FunctionType *FnTy =
1336*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg=*/false);
1337*67e74705SXin Li RTLFn =
1338*67e74705SXin Li CGM.CreateRuntimeFunction(FnTy, /*Name=*/"__kmpc_end_reduce_nowait");
1339*67e74705SXin Li break;
1340*67e74705SXin Li }
1341*67e74705SXin Li case OMPRTL__kmpc_omp_task_begin_if0: {
1342*67e74705SXin Li // Build void __kmpc_omp_task(ident_t *, kmp_int32 gtid, kmp_task_t
1343*67e74705SXin Li // *new_task);
1344*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty,
1345*67e74705SXin Li CGM.VoidPtrTy};
1346*67e74705SXin Li llvm::FunctionType *FnTy =
1347*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg=*/false);
1348*67e74705SXin Li RTLFn =
1349*67e74705SXin Li CGM.CreateRuntimeFunction(FnTy, /*Name=*/"__kmpc_omp_task_begin_if0");
1350*67e74705SXin Li break;
1351*67e74705SXin Li }
1352*67e74705SXin Li case OMPRTL__kmpc_omp_task_complete_if0: {
1353*67e74705SXin Li // Build void __kmpc_omp_task(ident_t *, kmp_int32 gtid, kmp_task_t
1354*67e74705SXin Li // *new_task);
1355*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty,
1356*67e74705SXin Li CGM.VoidPtrTy};
1357*67e74705SXin Li llvm::FunctionType *FnTy =
1358*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg=*/false);
1359*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy,
1360*67e74705SXin Li /*Name=*/"__kmpc_omp_task_complete_if0");
1361*67e74705SXin Li break;
1362*67e74705SXin Li }
1363*67e74705SXin Li case OMPRTL__kmpc_ordered: {
1364*67e74705SXin Li // Build void __kmpc_ordered(ident_t *loc, kmp_int32 global_tid);
1365*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty};
1366*67e74705SXin Li llvm::FunctionType *FnTy =
1367*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg=*/false);
1368*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_ordered");
1369*67e74705SXin Li break;
1370*67e74705SXin Li }
1371*67e74705SXin Li case OMPRTL__kmpc_end_ordered: {
1372*67e74705SXin Li // Build void __kmpc_end_ordered(ident_t *loc, kmp_int32 global_tid);
1373*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty};
1374*67e74705SXin Li llvm::FunctionType *FnTy =
1375*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg=*/false);
1376*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_end_ordered");
1377*67e74705SXin Li break;
1378*67e74705SXin Li }
1379*67e74705SXin Li case OMPRTL__kmpc_omp_taskwait: {
1380*67e74705SXin Li // Build kmp_int32 __kmpc_omp_taskwait(ident_t *loc, kmp_int32 global_tid);
1381*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty};
1382*67e74705SXin Li llvm::FunctionType *FnTy =
1383*67e74705SXin Li llvm::FunctionType::get(CGM.Int32Ty, TypeParams, /*isVarArg=*/false);
1384*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_omp_taskwait");
1385*67e74705SXin Li break;
1386*67e74705SXin Li }
1387*67e74705SXin Li case OMPRTL__kmpc_taskgroup: {
1388*67e74705SXin Li // Build void __kmpc_taskgroup(ident_t *loc, kmp_int32 global_tid);
1389*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty};
1390*67e74705SXin Li llvm::FunctionType *FnTy =
1391*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg=*/false);
1392*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_taskgroup");
1393*67e74705SXin Li break;
1394*67e74705SXin Li }
1395*67e74705SXin Li case OMPRTL__kmpc_end_taskgroup: {
1396*67e74705SXin Li // Build void __kmpc_end_taskgroup(ident_t *loc, kmp_int32 global_tid);
1397*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty};
1398*67e74705SXin Li llvm::FunctionType *FnTy =
1399*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg=*/false);
1400*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_end_taskgroup");
1401*67e74705SXin Li break;
1402*67e74705SXin Li }
1403*67e74705SXin Li case OMPRTL__kmpc_push_proc_bind: {
1404*67e74705SXin Li // Build void __kmpc_push_proc_bind(ident_t *loc, kmp_int32 global_tid,
1405*67e74705SXin Li // int proc_bind)
1406*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty, CGM.IntTy};
1407*67e74705SXin Li llvm::FunctionType *FnTy =
1408*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg*/ false);
1409*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_push_proc_bind");
1410*67e74705SXin Li break;
1411*67e74705SXin Li }
1412*67e74705SXin Li case OMPRTL__kmpc_omp_task_with_deps: {
1413*67e74705SXin Li // Build kmp_int32 __kmpc_omp_task_with_deps(ident_t *, kmp_int32 gtid,
1414*67e74705SXin Li // kmp_task_t *new_task, kmp_int32 ndeps, kmp_depend_info_t *dep_list,
1415*67e74705SXin Li // kmp_int32 ndeps_noalias, kmp_depend_info_t *noalias_dep_list);
1416*67e74705SXin Li llvm::Type *TypeParams[] = {
1417*67e74705SXin Li getIdentTyPointerTy(), CGM.Int32Ty, CGM.VoidPtrTy, CGM.Int32Ty,
1418*67e74705SXin Li CGM.VoidPtrTy, CGM.Int32Ty, CGM.VoidPtrTy};
1419*67e74705SXin Li llvm::FunctionType *FnTy =
1420*67e74705SXin Li llvm::FunctionType::get(CGM.Int32Ty, TypeParams, /*isVarArg=*/false);
1421*67e74705SXin Li RTLFn =
1422*67e74705SXin Li CGM.CreateRuntimeFunction(FnTy, /*Name=*/"__kmpc_omp_task_with_deps");
1423*67e74705SXin Li break;
1424*67e74705SXin Li }
1425*67e74705SXin Li case OMPRTL__kmpc_omp_wait_deps: {
1426*67e74705SXin Li // Build void __kmpc_omp_wait_deps(ident_t *, kmp_int32 gtid,
1427*67e74705SXin Li // kmp_int32 ndeps, kmp_depend_info_t *dep_list, kmp_int32 ndeps_noalias,
1428*67e74705SXin Li // kmp_depend_info_t *noalias_dep_list);
1429*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty,
1430*67e74705SXin Li CGM.Int32Ty, CGM.VoidPtrTy,
1431*67e74705SXin Li CGM.Int32Ty, CGM.VoidPtrTy};
1432*67e74705SXin Li llvm::FunctionType *FnTy =
1433*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg=*/false);
1434*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, /*Name=*/"__kmpc_omp_wait_deps");
1435*67e74705SXin Li break;
1436*67e74705SXin Li }
1437*67e74705SXin Li case OMPRTL__kmpc_cancellationpoint: {
1438*67e74705SXin Li // Build kmp_int32 __kmpc_cancellationpoint(ident_t *loc, kmp_int32
1439*67e74705SXin Li // global_tid, kmp_int32 cncl_kind)
1440*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty, CGM.IntTy};
1441*67e74705SXin Li llvm::FunctionType *FnTy =
1442*67e74705SXin Li llvm::FunctionType::get(CGM.Int32Ty, TypeParams, /*isVarArg*/ false);
1443*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_cancellationpoint");
1444*67e74705SXin Li break;
1445*67e74705SXin Li }
1446*67e74705SXin Li case OMPRTL__kmpc_cancel: {
1447*67e74705SXin Li // Build kmp_int32 __kmpc_cancel(ident_t *loc, kmp_int32 global_tid,
1448*67e74705SXin Li // kmp_int32 cncl_kind)
1449*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty, CGM.IntTy};
1450*67e74705SXin Li llvm::FunctionType *FnTy =
1451*67e74705SXin Li llvm::FunctionType::get(CGM.Int32Ty, TypeParams, /*isVarArg*/ false);
1452*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_cancel");
1453*67e74705SXin Li break;
1454*67e74705SXin Li }
1455*67e74705SXin Li case OMPRTL__kmpc_push_num_teams: {
1456*67e74705SXin Li // Build void kmpc_push_num_teams (ident_t loc, kmp_int32 global_tid,
1457*67e74705SXin Li // kmp_int32 num_teams, kmp_int32 num_threads)
1458*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty, CGM.Int32Ty,
1459*67e74705SXin Li CGM.Int32Ty};
1460*67e74705SXin Li llvm::FunctionType *FnTy =
1461*67e74705SXin Li llvm::FunctionType::get(CGM.Int32Ty, TypeParams, /*isVarArg*/ false);
1462*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_push_num_teams");
1463*67e74705SXin Li break;
1464*67e74705SXin Li }
1465*67e74705SXin Li case OMPRTL__kmpc_fork_teams: {
1466*67e74705SXin Li // Build void __kmpc_fork_teams(ident_t *loc, kmp_int32 argc, kmpc_micro
1467*67e74705SXin Li // microtask, ...);
1468*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty,
1469*67e74705SXin Li getKmpc_MicroPointerTy()};
1470*67e74705SXin Li llvm::FunctionType *FnTy =
1471*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg*/ true);
1472*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__kmpc_fork_teams");
1473*67e74705SXin Li break;
1474*67e74705SXin Li }
1475*67e74705SXin Li case OMPRTL__kmpc_taskloop: {
1476*67e74705SXin Li // Build void __kmpc_taskloop(ident_t *loc, int gtid, kmp_task_t *task, int
1477*67e74705SXin Li // if_val, kmp_uint64 *lb, kmp_uint64 *ub, kmp_int64 st, int nogroup, int
1478*67e74705SXin Li // sched, kmp_uint64 grainsize, void *task_dup);
1479*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(),
1480*67e74705SXin Li CGM.IntTy,
1481*67e74705SXin Li CGM.VoidPtrTy,
1482*67e74705SXin Li CGM.IntTy,
1483*67e74705SXin Li CGM.Int64Ty->getPointerTo(),
1484*67e74705SXin Li CGM.Int64Ty->getPointerTo(),
1485*67e74705SXin Li CGM.Int64Ty,
1486*67e74705SXin Li CGM.IntTy,
1487*67e74705SXin Li CGM.IntTy,
1488*67e74705SXin Li CGM.Int64Ty,
1489*67e74705SXin Li CGM.VoidPtrTy};
1490*67e74705SXin Li llvm::FunctionType *FnTy =
1491*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg=*/false);
1492*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, /*Name=*/"__kmpc_taskloop");
1493*67e74705SXin Li break;
1494*67e74705SXin Li }
1495*67e74705SXin Li case OMPRTL__kmpc_doacross_init: {
1496*67e74705SXin Li // Build void __kmpc_doacross_init(ident_t *loc, kmp_int32 gtid, kmp_int32
1497*67e74705SXin Li // num_dims, struct kmp_dim *dims);
1498*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(),
1499*67e74705SXin Li CGM.Int32Ty,
1500*67e74705SXin Li CGM.Int32Ty,
1501*67e74705SXin Li CGM.VoidPtrTy};
1502*67e74705SXin Li llvm::FunctionType *FnTy =
1503*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg=*/false);
1504*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, /*Name=*/"__kmpc_doacross_init");
1505*67e74705SXin Li break;
1506*67e74705SXin Li }
1507*67e74705SXin Li case OMPRTL__kmpc_doacross_fini: {
1508*67e74705SXin Li // Build void __kmpc_doacross_fini(ident_t *loc, kmp_int32 gtid);
1509*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty};
1510*67e74705SXin Li llvm::FunctionType *FnTy =
1511*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg=*/false);
1512*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, /*Name=*/"__kmpc_doacross_fini");
1513*67e74705SXin Li break;
1514*67e74705SXin Li }
1515*67e74705SXin Li case OMPRTL__kmpc_doacross_post: {
1516*67e74705SXin Li // Build void __kmpc_doacross_post(ident_t *loc, kmp_int32 gtid, kmp_int64
1517*67e74705SXin Li // *vec);
1518*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty,
1519*67e74705SXin Li CGM.Int64Ty->getPointerTo()};
1520*67e74705SXin Li llvm::FunctionType *FnTy =
1521*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg=*/false);
1522*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, /*Name=*/"__kmpc_doacross_post");
1523*67e74705SXin Li break;
1524*67e74705SXin Li }
1525*67e74705SXin Li case OMPRTL__kmpc_doacross_wait: {
1526*67e74705SXin Li // Build void __kmpc_doacross_wait(ident_t *loc, kmp_int32 gtid, kmp_int64
1527*67e74705SXin Li // *vec);
1528*67e74705SXin Li llvm::Type *TypeParams[] = {getIdentTyPointerTy(), CGM.Int32Ty,
1529*67e74705SXin Li CGM.Int64Ty->getPointerTo()};
1530*67e74705SXin Li llvm::FunctionType *FnTy =
1531*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg=*/false);
1532*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, /*Name=*/"__kmpc_doacross_wait");
1533*67e74705SXin Li break;
1534*67e74705SXin Li }
1535*67e74705SXin Li case OMPRTL__tgt_target: {
1536*67e74705SXin Li // Build int32_t __tgt_target(int32_t device_id, void *host_ptr, int32_t
1537*67e74705SXin Li // arg_num, void** args_base, void **args, size_t *arg_sizes, int32_t
1538*67e74705SXin Li // *arg_types);
1539*67e74705SXin Li llvm::Type *TypeParams[] = {CGM.Int32Ty,
1540*67e74705SXin Li CGM.VoidPtrTy,
1541*67e74705SXin Li CGM.Int32Ty,
1542*67e74705SXin Li CGM.VoidPtrPtrTy,
1543*67e74705SXin Li CGM.VoidPtrPtrTy,
1544*67e74705SXin Li CGM.SizeTy->getPointerTo(),
1545*67e74705SXin Li CGM.Int32Ty->getPointerTo()};
1546*67e74705SXin Li llvm::FunctionType *FnTy =
1547*67e74705SXin Li llvm::FunctionType::get(CGM.Int32Ty, TypeParams, /*isVarArg*/ false);
1548*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__tgt_target");
1549*67e74705SXin Li break;
1550*67e74705SXin Li }
1551*67e74705SXin Li case OMPRTL__tgt_target_teams: {
1552*67e74705SXin Li // Build int32_t __tgt_target_teams(int32_t device_id, void *host_ptr,
1553*67e74705SXin Li // int32_t arg_num, void** args_base, void **args, size_t *arg_sizes,
1554*67e74705SXin Li // int32_t *arg_types, int32_t num_teams, int32_t thread_limit);
1555*67e74705SXin Li llvm::Type *TypeParams[] = {CGM.Int32Ty,
1556*67e74705SXin Li CGM.VoidPtrTy,
1557*67e74705SXin Li CGM.Int32Ty,
1558*67e74705SXin Li CGM.VoidPtrPtrTy,
1559*67e74705SXin Li CGM.VoidPtrPtrTy,
1560*67e74705SXin Li CGM.SizeTy->getPointerTo(),
1561*67e74705SXin Li CGM.Int32Ty->getPointerTo(),
1562*67e74705SXin Li CGM.Int32Ty,
1563*67e74705SXin Li CGM.Int32Ty};
1564*67e74705SXin Li llvm::FunctionType *FnTy =
1565*67e74705SXin Li llvm::FunctionType::get(CGM.Int32Ty, TypeParams, /*isVarArg*/ false);
1566*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__tgt_target_teams");
1567*67e74705SXin Li break;
1568*67e74705SXin Li }
1569*67e74705SXin Li case OMPRTL__tgt_register_lib: {
1570*67e74705SXin Li // Build void __tgt_register_lib(__tgt_bin_desc *desc);
1571*67e74705SXin Li QualType ParamTy =
1572*67e74705SXin Li CGM.getContext().getPointerType(getTgtBinaryDescriptorQTy());
1573*67e74705SXin Li llvm::Type *TypeParams[] = {CGM.getTypes().ConvertTypeForMem(ParamTy)};
1574*67e74705SXin Li llvm::FunctionType *FnTy =
1575*67e74705SXin Li llvm::FunctionType::get(CGM.Int32Ty, TypeParams, /*isVarArg*/ false);
1576*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__tgt_register_lib");
1577*67e74705SXin Li break;
1578*67e74705SXin Li }
1579*67e74705SXin Li case OMPRTL__tgt_unregister_lib: {
1580*67e74705SXin Li // Build void __tgt_unregister_lib(__tgt_bin_desc *desc);
1581*67e74705SXin Li QualType ParamTy =
1582*67e74705SXin Li CGM.getContext().getPointerType(getTgtBinaryDescriptorQTy());
1583*67e74705SXin Li llvm::Type *TypeParams[] = {CGM.getTypes().ConvertTypeForMem(ParamTy)};
1584*67e74705SXin Li llvm::FunctionType *FnTy =
1585*67e74705SXin Li llvm::FunctionType::get(CGM.Int32Ty, TypeParams, /*isVarArg*/ false);
1586*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__tgt_unregister_lib");
1587*67e74705SXin Li break;
1588*67e74705SXin Li }
1589*67e74705SXin Li case OMPRTL__tgt_target_data_begin: {
1590*67e74705SXin Li // Build void __tgt_target_data_begin(int32_t device_id, int32_t arg_num,
1591*67e74705SXin Li // void** args_base, void **args, size_t *arg_sizes, int32_t *arg_types);
1592*67e74705SXin Li llvm::Type *TypeParams[] = {CGM.Int32Ty,
1593*67e74705SXin Li CGM.Int32Ty,
1594*67e74705SXin Li CGM.VoidPtrPtrTy,
1595*67e74705SXin Li CGM.VoidPtrPtrTy,
1596*67e74705SXin Li CGM.SizeTy->getPointerTo(),
1597*67e74705SXin Li CGM.Int32Ty->getPointerTo()};
1598*67e74705SXin Li llvm::FunctionType *FnTy =
1599*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg*/ false);
1600*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__tgt_target_data_begin");
1601*67e74705SXin Li break;
1602*67e74705SXin Li }
1603*67e74705SXin Li case OMPRTL__tgt_target_data_end: {
1604*67e74705SXin Li // Build void __tgt_target_data_end(int32_t device_id, int32_t arg_num,
1605*67e74705SXin Li // void** args_base, void **args, size_t *arg_sizes, int32_t *arg_types);
1606*67e74705SXin Li llvm::Type *TypeParams[] = {CGM.Int32Ty,
1607*67e74705SXin Li CGM.Int32Ty,
1608*67e74705SXin Li CGM.VoidPtrPtrTy,
1609*67e74705SXin Li CGM.VoidPtrPtrTy,
1610*67e74705SXin Li CGM.SizeTy->getPointerTo(),
1611*67e74705SXin Li CGM.Int32Ty->getPointerTo()};
1612*67e74705SXin Li llvm::FunctionType *FnTy =
1613*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg*/ false);
1614*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__tgt_target_data_end");
1615*67e74705SXin Li break;
1616*67e74705SXin Li }
1617*67e74705SXin Li case OMPRTL__tgt_target_data_update: {
1618*67e74705SXin Li // Build void __tgt_target_data_update(int32_t device_id, int32_t arg_num,
1619*67e74705SXin Li // void** args_base, void **args, size_t *arg_sizes, int32_t *arg_types);
1620*67e74705SXin Li llvm::Type *TypeParams[] = {CGM.Int32Ty,
1621*67e74705SXin Li CGM.Int32Ty,
1622*67e74705SXin Li CGM.VoidPtrPtrTy,
1623*67e74705SXin Li CGM.VoidPtrPtrTy,
1624*67e74705SXin Li CGM.SizeTy->getPointerTo(),
1625*67e74705SXin Li CGM.Int32Ty->getPointerTo()};
1626*67e74705SXin Li llvm::FunctionType *FnTy =
1627*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg*/ false);
1628*67e74705SXin Li RTLFn = CGM.CreateRuntimeFunction(FnTy, "__tgt_target_data_update");
1629*67e74705SXin Li break;
1630*67e74705SXin Li }
1631*67e74705SXin Li }
1632*67e74705SXin Li assert(RTLFn && "Unable to find OpenMP runtime function");
1633*67e74705SXin Li return RTLFn;
1634*67e74705SXin Li }
1635*67e74705SXin Li
createForStaticInitFunction(unsigned IVSize,bool IVSigned)1636*67e74705SXin Li llvm::Constant *CGOpenMPRuntime::createForStaticInitFunction(unsigned IVSize,
1637*67e74705SXin Li bool IVSigned) {
1638*67e74705SXin Li assert((IVSize == 32 || IVSize == 64) &&
1639*67e74705SXin Li "IV size is not compatible with the omp runtime");
1640*67e74705SXin Li auto Name = IVSize == 32 ? (IVSigned ? "__kmpc_for_static_init_4"
1641*67e74705SXin Li : "__kmpc_for_static_init_4u")
1642*67e74705SXin Li : (IVSigned ? "__kmpc_for_static_init_8"
1643*67e74705SXin Li : "__kmpc_for_static_init_8u");
1644*67e74705SXin Li auto ITy = IVSize == 32 ? CGM.Int32Ty : CGM.Int64Ty;
1645*67e74705SXin Li auto PtrTy = llvm::PointerType::getUnqual(ITy);
1646*67e74705SXin Li llvm::Type *TypeParams[] = {
1647*67e74705SXin Li getIdentTyPointerTy(), // loc
1648*67e74705SXin Li CGM.Int32Ty, // tid
1649*67e74705SXin Li CGM.Int32Ty, // schedtype
1650*67e74705SXin Li llvm::PointerType::getUnqual(CGM.Int32Ty), // p_lastiter
1651*67e74705SXin Li PtrTy, // p_lower
1652*67e74705SXin Li PtrTy, // p_upper
1653*67e74705SXin Li PtrTy, // p_stride
1654*67e74705SXin Li ITy, // incr
1655*67e74705SXin Li ITy // chunk
1656*67e74705SXin Li };
1657*67e74705SXin Li llvm::FunctionType *FnTy =
1658*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg*/ false);
1659*67e74705SXin Li return CGM.CreateRuntimeFunction(FnTy, Name);
1660*67e74705SXin Li }
1661*67e74705SXin Li
createDispatchInitFunction(unsigned IVSize,bool IVSigned)1662*67e74705SXin Li llvm::Constant *CGOpenMPRuntime::createDispatchInitFunction(unsigned IVSize,
1663*67e74705SXin Li bool IVSigned) {
1664*67e74705SXin Li assert((IVSize == 32 || IVSize == 64) &&
1665*67e74705SXin Li "IV size is not compatible with the omp runtime");
1666*67e74705SXin Li auto Name =
1667*67e74705SXin Li IVSize == 32
1668*67e74705SXin Li ? (IVSigned ? "__kmpc_dispatch_init_4" : "__kmpc_dispatch_init_4u")
1669*67e74705SXin Li : (IVSigned ? "__kmpc_dispatch_init_8" : "__kmpc_dispatch_init_8u");
1670*67e74705SXin Li auto ITy = IVSize == 32 ? CGM.Int32Ty : CGM.Int64Ty;
1671*67e74705SXin Li llvm::Type *TypeParams[] = { getIdentTyPointerTy(), // loc
1672*67e74705SXin Li CGM.Int32Ty, // tid
1673*67e74705SXin Li CGM.Int32Ty, // schedtype
1674*67e74705SXin Li ITy, // lower
1675*67e74705SXin Li ITy, // upper
1676*67e74705SXin Li ITy, // stride
1677*67e74705SXin Li ITy // chunk
1678*67e74705SXin Li };
1679*67e74705SXin Li llvm::FunctionType *FnTy =
1680*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg*/ false);
1681*67e74705SXin Li return CGM.CreateRuntimeFunction(FnTy, Name);
1682*67e74705SXin Li }
1683*67e74705SXin Li
createDispatchFiniFunction(unsigned IVSize,bool IVSigned)1684*67e74705SXin Li llvm::Constant *CGOpenMPRuntime::createDispatchFiniFunction(unsigned IVSize,
1685*67e74705SXin Li bool IVSigned) {
1686*67e74705SXin Li assert((IVSize == 32 || IVSize == 64) &&
1687*67e74705SXin Li "IV size is not compatible with the omp runtime");
1688*67e74705SXin Li auto Name =
1689*67e74705SXin Li IVSize == 32
1690*67e74705SXin Li ? (IVSigned ? "__kmpc_dispatch_fini_4" : "__kmpc_dispatch_fini_4u")
1691*67e74705SXin Li : (IVSigned ? "__kmpc_dispatch_fini_8" : "__kmpc_dispatch_fini_8u");
1692*67e74705SXin Li llvm::Type *TypeParams[] = {
1693*67e74705SXin Li getIdentTyPointerTy(), // loc
1694*67e74705SXin Li CGM.Int32Ty, // tid
1695*67e74705SXin Li };
1696*67e74705SXin Li llvm::FunctionType *FnTy =
1697*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, TypeParams, /*isVarArg=*/false);
1698*67e74705SXin Li return CGM.CreateRuntimeFunction(FnTy, Name);
1699*67e74705SXin Li }
1700*67e74705SXin Li
createDispatchNextFunction(unsigned IVSize,bool IVSigned)1701*67e74705SXin Li llvm::Constant *CGOpenMPRuntime::createDispatchNextFunction(unsigned IVSize,
1702*67e74705SXin Li bool IVSigned) {
1703*67e74705SXin Li assert((IVSize == 32 || IVSize == 64) &&
1704*67e74705SXin Li "IV size is not compatible with the omp runtime");
1705*67e74705SXin Li auto Name =
1706*67e74705SXin Li IVSize == 32
1707*67e74705SXin Li ? (IVSigned ? "__kmpc_dispatch_next_4" : "__kmpc_dispatch_next_4u")
1708*67e74705SXin Li : (IVSigned ? "__kmpc_dispatch_next_8" : "__kmpc_dispatch_next_8u");
1709*67e74705SXin Li auto ITy = IVSize == 32 ? CGM.Int32Ty : CGM.Int64Ty;
1710*67e74705SXin Li auto PtrTy = llvm::PointerType::getUnqual(ITy);
1711*67e74705SXin Li llvm::Type *TypeParams[] = {
1712*67e74705SXin Li getIdentTyPointerTy(), // loc
1713*67e74705SXin Li CGM.Int32Ty, // tid
1714*67e74705SXin Li llvm::PointerType::getUnqual(CGM.Int32Ty), // p_lastiter
1715*67e74705SXin Li PtrTy, // p_lower
1716*67e74705SXin Li PtrTy, // p_upper
1717*67e74705SXin Li PtrTy // p_stride
1718*67e74705SXin Li };
1719*67e74705SXin Li llvm::FunctionType *FnTy =
1720*67e74705SXin Li llvm::FunctionType::get(CGM.Int32Ty, TypeParams, /*isVarArg*/ false);
1721*67e74705SXin Li return CGM.CreateRuntimeFunction(FnTy, Name);
1722*67e74705SXin Li }
1723*67e74705SXin Li
1724*67e74705SXin Li llvm::Constant *
getOrCreateThreadPrivateCache(const VarDecl * VD)1725*67e74705SXin Li CGOpenMPRuntime::getOrCreateThreadPrivateCache(const VarDecl *VD) {
1726*67e74705SXin Li assert(!CGM.getLangOpts().OpenMPUseTLS ||
1727*67e74705SXin Li !CGM.getContext().getTargetInfo().isTLSSupported());
1728*67e74705SXin Li // Lookup the entry, lazily creating it if necessary.
1729*67e74705SXin Li return getOrCreateInternalVariable(CGM.Int8PtrPtrTy,
1730*67e74705SXin Li Twine(CGM.getMangledName(VD)) + ".cache.");
1731*67e74705SXin Li }
1732*67e74705SXin Li
getAddrOfThreadPrivate(CodeGenFunction & CGF,const VarDecl * VD,Address VDAddr,SourceLocation Loc)1733*67e74705SXin Li Address CGOpenMPRuntime::getAddrOfThreadPrivate(CodeGenFunction &CGF,
1734*67e74705SXin Li const VarDecl *VD,
1735*67e74705SXin Li Address VDAddr,
1736*67e74705SXin Li SourceLocation Loc) {
1737*67e74705SXin Li if (CGM.getLangOpts().OpenMPUseTLS &&
1738*67e74705SXin Li CGM.getContext().getTargetInfo().isTLSSupported())
1739*67e74705SXin Li return VDAddr;
1740*67e74705SXin Li
1741*67e74705SXin Li auto VarTy = VDAddr.getElementType();
1742*67e74705SXin Li llvm::Value *Args[] = {emitUpdateLocation(CGF, Loc), getThreadID(CGF, Loc),
1743*67e74705SXin Li CGF.Builder.CreatePointerCast(VDAddr.getPointer(),
1744*67e74705SXin Li CGM.Int8PtrTy),
1745*67e74705SXin Li CGM.getSize(CGM.GetTargetTypeStoreSize(VarTy)),
1746*67e74705SXin Li getOrCreateThreadPrivateCache(VD)};
1747*67e74705SXin Li return Address(CGF.EmitRuntimeCall(
1748*67e74705SXin Li createRuntimeFunction(OMPRTL__kmpc_threadprivate_cached), Args),
1749*67e74705SXin Li VDAddr.getAlignment());
1750*67e74705SXin Li }
1751*67e74705SXin Li
emitThreadPrivateVarInit(CodeGenFunction & CGF,Address VDAddr,llvm::Value * Ctor,llvm::Value * CopyCtor,llvm::Value * Dtor,SourceLocation Loc)1752*67e74705SXin Li void CGOpenMPRuntime::emitThreadPrivateVarInit(
1753*67e74705SXin Li CodeGenFunction &CGF, Address VDAddr, llvm::Value *Ctor,
1754*67e74705SXin Li llvm::Value *CopyCtor, llvm::Value *Dtor, SourceLocation Loc) {
1755*67e74705SXin Li // Call kmp_int32 __kmpc_global_thread_num(&loc) to init OpenMP runtime
1756*67e74705SXin Li // library.
1757*67e74705SXin Li auto OMPLoc = emitUpdateLocation(CGF, Loc);
1758*67e74705SXin Li CGF.EmitRuntimeCall(createRuntimeFunction(OMPRTL__kmpc_global_thread_num),
1759*67e74705SXin Li OMPLoc);
1760*67e74705SXin Li // Call __kmpc_threadprivate_register(&loc, &var, ctor, cctor/*NULL*/, dtor)
1761*67e74705SXin Li // to register constructor/destructor for variable.
1762*67e74705SXin Li llvm::Value *Args[] = {OMPLoc,
1763*67e74705SXin Li CGF.Builder.CreatePointerCast(VDAddr.getPointer(),
1764*67e74705SXin Li CGM.VoidPtrTy),
1765*67e74705SXin Li Ctor, CopyCtor, Dtor};
1766*67e74705SXin Li CGF.EmitRuntimeCall(
1767*67e74705SXin Li createRuntimeFunction(OMPRTL__kmpc_threadprivate_register), Args);
1768*67e74705SXin Li }
1769*67e74705SXin Li
emitThreadPrivateVarDefinition(const VarDecl * VD,Address VDAddr,SourceLocation Loc,bool PerformInit,CodeGenFunction * CGF)1770*67e74705SXin Li llvm::Function *CGOpenMPRuntime::emitThreadPrivateVarDefinition(
1771*67e74705SXin Li const VarDecl *VD, Address VDAddr, SourceLocation Loc,
1772*67e74705SXin Li bool PerformInit, CodeGenFunction *CGF) {
1773*67e74705SXin Li if (CGM.getLangOpts().OpenMPUseTLS &&
1774*67e74705SXin Li CGM.getContext().getTargetInfo().isTLSSupported())
1775*67e74705SXin Li return nullptr;
1776*67e74705SXin Li
1777*67e74705SXin Li VD = VD->getDefinition(CGM.getContext());
1778*67e74705SXin Li if (VD && ThreadPrivateWithDefinition.count(VD) == 0) {
1779*67e74705SXin Li ThreadPrivateWithDefinition.insert(VD);
1780*67e74705SXin Li QualType ASTTy = VD->getType();
1781*67e74705SXin Li
1782*67e74705SXin Li llvm::Value *Ctor = nullptr, *CopyCtor = nullptr, *Dtor = nullptr;
1783*67e74705SXin Li auto Init = VD->getAnyInitializer();
1784*67e74705SXin Li if (CGM.getLangOpts().CPlusPlus && PerformInit) {
1785*67e74705SXin Li // Generate function that re-emits the declaration's initializer into the
1786*67e74705SXin Li // threadprivate copy of the variable VD
1787*67e74705SXin Li CodeGenFunction CtorCGF(CGM);
1788*67e74705SXin Li FunctionArgList Args;
1789*67e74705SXin Li ImplicitParamDecl Dst(CGM.getContext(), /*DC=*/nullptr, SourceLocation(),
1790*67e74705SXin Li /*Id=*/nullptr, CGM.getContext().VoidPtrTy);
1791*67e74705SXin Li Args.push_back(&Dst);
1792*67e74705SXin Li
1793*67e74705SXin Li auto &FI = CGM.getTypes().arrangeBuiltinFunctionDeclaration(
1794*67e74705SXin Li CGM.getContext().VoidPtrTy, Args);
1795*67e74705SXin Li auto FTy = CGM.getTypes().GetFunctionType(FI);
1796*67e74705SXin Li auto Fn = CGM.CreateGlobalInitOrDestructFunction(
1797*67e74705SXin Li FTy, ".__kmpc_global_ctor_.", FI, Loc);
1798*67e74705SXin Li CtorCGF.StartFunction(GlobalDecl(), CGM.getContext().VoidPtrTy, Fn, FI,
1799*67e74705SXin Li Args, SourceLocation());
1800*67e74705SXin Li auto ArgVal = CtorCGF.EmitLoadOfScalar(
1801*67e74705SXin Li CtorCGF.GetAddrOfLocalVar(&Dst), /*Volatile=*/false,
1802*67e74705SXin Li CGM.getContext().VoidPtrTy, Dst.getLocation());
1803*67e74705SXin Li Address Arg = Address(ArgVal, VDAddr.getAlignment());
1804*67e74705SXin Li Arg = CtorCGF.Builder.CreateElementBitCast(Arg,
1805*67e74705SXin Li CtorCGF.ConvertTypeForMem(ASTTy));
1806*67e74705SXin Li CtorCGF.EmitAnyExprToMem(Init, Arg, Init->getType().getQualifiers(),
1807*67e74705SXin Li /*IsInitializer=*/true);
1808*67e74705SXin Li ArgVal = CtorCGF.EmitLoadOfScalar(
1809*67e74705SXin Li CtorCGF.GetAddrOfLocalVar(&Dst), /*Volatile=*/false,
1810*67e74705SXin Li CGM.getContext().VoidPtrTy, Dst.getLocation());
1811*67e74705SXin Li CtorCGF.Builder.CreateStore(ArgVal, CtorCGF.ReturnValue);
1812*67e74705SXin Li CtorCGF.FinishFunction();
1813*67e74705SXin Li Ctor = Fn;
1814*67e74705SXin Li }
1815*67e74705SXin Li if (VD->getType().isDestructedType() != QualType::DK_none) {
1816*67e74705SXin Li // Generate function that emits destructor call for the threadprivate copy
1817*67e74705SXin Li // of the variable VD
1818*67e74705SXin Li CodeGenFunction DtorCGF(CGM);
1819*67e74705SXin Li FunctionArgList Args;
1820*67e74705SXin Li ImplicitParamDecl Dst(CGM.getContext(), /*DC=*/nullptr, SourceLocation(),
1821*67e74705SXin Li /*Id=*/nullptr, CGM.getContext().VoidPtrTy);
1822*67e74705SXin Li Args.push_back(&Dst);
1823*67e74705SXin Li
1824*67e74705SXin Li auto &FI = CGM.getTypes().arrangeBuiltinFunctionDeclaration(
1825*67e74705SXin Li CGM.getContext().VoidTy, Args);
1826*67e74705SXin Li auto FTy = CGM.getTypes().GetFunctionType(FI);
1827*67e74705SXin Li auto Fn = CGM.CreateGlobalInitOrDestructFunction(
1828*67e74705SXin Li FTy, ".__kmpc_global_dtor_.", FI, Loc);
1829*67e74705SXin Li auto NL = ApplyDebugLocation::CreateEmpty(DtorCGF);
1830*67e74705SXin Li DtorCGF.StartFunction(GlobalDecl(), CGM.getContext().VoidTy, Fn, FI, Args,
1831*67e74705SXin Li SourceLocation());
1832*67e74705SXin Li // Create a scope with an artificial location for the body of this function.
1833*67e74705SXin Li auto AL = ApplyDebugLocation::CreateArtificial(DtorCGF);
1834*67e74705SXin Li auto ArgVal = DtorCGF.EmitLoadOfScalar(
1835*67e74705SXin Li DtorCGF.GetAddrOfLocalVar(&Dst),
1836*67e74705SXin Li /*Volatile=*/false, CGM.getContext().VoidPtrTy, Dst.getLocation());
1837*67e74705SXin Li DtorCGF.emitDestroy(Address(ArgVal, VDAddr.getAlignment()), ASTTy,
1838*67e74705SXin Li DtorCGF.getDestroyer(ASTTy.isDestructedType()),
1839*67e74705SXin Li DtorCGF.needsEHCleanup(ASTTy.isDestructedType()));
1840*67e74705SXin Li DtorCGF.FinishFunction();
1841*67e74705SXin Li Dtor = Fn;
1842*67e74705SXin Li }
1843*67e74705SXin Li // Do not emit init function if it is not required.
1844*67e74705SXin Li if (!Ctor && !Dtor)
1845*67e74705SXin Li return nullptr;
1846*67e74705SXin Li
1847*67e74705SXin Li llvm::Type *CopyCtorTyArgs[] = {CGM.VoidPtrTy, CGM.VoidPtrTy};
1848*67e74705SXin Li auto CopyCtorTy =
1849*67e74705SXin Li llvm::FunctionType::get(CGM.VoidPtrTy, CopyCtorTyArgs,
1850*67e74705SXin Li /*isVarArg=*/false)->getPointerTo();
1851*67e74705SXin Li // Copying constructor for the threadprivate variable.
1852*67e74705SXin Li // Must be NULL - reserved by runtime, but currently it requires that this
1853*67e74705SXin Li // parameter is always NULL. Otherwise it fires assertion.
1854*67e74705SXin Li CopyCtor = llvm::Constant::getNullValue(CopyCtorTy);
1855*67e74705SXin Li if (Ctor == nullptr) {
1856*67e74705SXin Li auto CtorTy = llvm::FunctionType::get(CGM.VoidPtrTy, CGM.VoidPtrTy,
1857*67e74705SXin Li /*isVarArg=*/false)->getPointerTo();
1858*67e74705SXin Li Ctor = llvm::Constant::getNullValue(CtorTy);
1859*67e74705SXin Li }
1860*67e74705SXin Li if (Dtor == nullptr) {
1861*67e74705SXin Li auto DtorTy = llvm::FunctionType::get(CGM.VoidTy, CGM.VoidPtrTy,
1862*67e74705SXin Li /*isVarArg=*/false)->getPointerTo();
1863*67e74705SXin Li Dtor = llvm::Constant::getNullValue(DtorTy);
1864*67e74705SXin Li }
1865*67e74705SXin Li if (!CGF) {
1866*67e74705SXin Li auto InitFunctionTy =
1867*67e74705SXin Li llvm::FunctionType::get(CGM.VoidTy, /*isVarArg*/ false);
1868*67e74705SXin Li auto InitFunction = CGM.CreateGlobalInitOrDestructFunction(
1869*67e74705SXin Li InitFunctionTy, ".__omp_threadprivate_init_.",
1870*67e74705SXin Li CGM.getTypes().arrangeNullaryFunction());
1871*67e74705SXin Li CodeGenFunction InitCGF(CGM);
1872*67e74705SXin Li FunctionArgList ArgList;
1873*67e74705SXin Li InitCGF.StartFunction(GlobalDecl(), CGM.getContext().VoidTy, InitFunction,
1874*67e74705SXin Li CGM.getTypes().arrangeNullaryFunction(), ArgList,
1875*67e74705SXin Li Loc);
1876*67e74705SXin Li emitThreadPrivateVarInit(InitCGF, VDAddr, Ctor, CopyCtor, Dtor, Loc);
1877*67e74705SXin Li InitCGF.FinishFunction();
1878*67e74705SXin Li return InitFunction;
1879*67e74705SXin Li }
1880*67e74705SXin Li emitThreadPrivateVarInit(*CGF, VDAddr, Ctor, CopyCtor, Dtor, Loc);
1881*67e74705SXin Li }
1882*67e74705SXin Li return nullptr;
1883*67e74705SXin Li }
1884*67e74705SXin Li
1885*67e74705SXin Li /// \brief Emits code for OpenMP 'if' clause using specified \a CodeGen
1886*67e74705SXin Li /// function. Here is the logic:
1887*67e74705SXin Li /// if (Cond) {
1888*67e74705SXin Li /// ThenGen();
1889*67e74705SXin Li /// } else {
1890*67e74705SXin Li /// ElseGen();
1891*67e74705SXin Li /// }
emitOMPIfClause(CodeGenFunction & CGF,const Expr * Cond,const RegionCodeGenTy & ThenGen,const RegionCodeGenTy & ElseGen)1892*67e74705SXin Li static void emitOMPIfClause(CodeGenFunction &CGF, const Expr *Cond,
1893*67e74705SXin Li const RegionCodeGenTy &ThenGen,
1894*67e74705SXin Li const RegionCodeGenTy &ElseGen) {
1895*67e74705SXin Li CodeGenFunction::LexicalScope ConditionScope(CGF, Cond->getSourceRange());
1896*67e74705SXin Li
1897*67e74705SXin Li // If the condition constant folds and can be elided, try to avoid emitting
1898*67e74705SXin Li // the condition and the dead arm of the if/else.
1899*67e74705SXin Li bool CondConstant;
1900*67e74705SXin Li if (CGF.ConstantFoldsToSimpleInteger(Cond, CondConstant)) {
1901*67e74705SXin Li if (CondConstant)
1902*67e74705SXin Li ThenGen(CGF);
1903*67e74705SXin Li else
1904*67e74705SXin Li ElseGen(CGF);
1905*67e74705SXin Li return;
1906*67e74705SXin Li }
1907*67e74705SXin Li
1908*67e74705SXin Li // Otherwise, the condition did not fold, or we couldn't elide it. Just
1909*67e74705SXin Li // emit the conditional branch.
1910*67e74705SXin Li auto ThenBlock = CGF.createBasicBlock("omp_if.then");
1911*67e74705SXin Li auto ElseBlock = CGF.createBasicBlock("omp_if.else");
1912*67e74705SXin Li auto ContBlock = CGF.createBasicBlock("omp_if.end");
1913*67e74705SXin Li CGF.EmitBranchOnBoolExpr(Cond, ThenBlock, ElseBlock, /*TrueCount=*/0);
1914*67e74705SXin Li
1915*67e74705SXin Li // Emit the 'then' code.
1916*67e74705SXin Li CGF.EmitBlock(ThenBlock);
1917*67e74705SXin Li ThenGen(CGF);
1918*67e74705SXin Li CGF.EmitBranch(ContBlock);
1919*67e74705SXin Li // Emit the 'else' code if present.
1920*67e74705SXin Li // There is no need to emit line number for unconditional branch.
1921*67e74705SXin Li (void)ApplyDebugLocation::CreateEmpty(CGF);
1922*67e74705SXin Li CGF.EmitBlock(ElseBlock);
1923*67e74705SXin Li ElseGen(CGF);
1924*67e74705SXin Li // There is no need to emit line number for unconditional branch.
1925*67e74705SXin Li (void)ApplyDebugLocation::CreateEmpty(CGF);
1926*67e74705SXin Li CGF.EmitBranch(ContBlock);
1927*67e74705SXin Li // Emit the continuation block for code after the if.
1928*67e74705SXin Li CGF.EmitBlock(ContBlock, /*IsFinished=*/true);
1929*67e74705SXin Li }
1930*67e74705SXin Li
emitParallelCall(CodeGenFunction & CGF,SourceLocation Loc,llvm::Value * OutlinedFn,ArrayRef<llvm::Value * > CapturedVars,const Expr * IfCond)1931*67e74705SXin Li void CGOpenMPRuntime::emitParallelCall(CodeGenFunction &CGF, SourceLocation Loc,
1932*67e74705SXin Li llvm::Value *OutlinedFn,
1933*67e74705SXin Li ArrayRef<llvm::Value *> CapturedVars,
1934*67e74705SXin Li const Expr *IfCond) {
1935*67e74705SXin Li if (!CGF.HaveInsertPoint())
1936*67e74705SXin Li return;
1937*67e74705SXin Li auto *RTLoc = emitUpdateLocation(CGF, Loc);
1938*67e74705SXin Li auto &&ThenGen = [OutlinedFn, CapturedVars, RTLoc](CodeGenFunction &CGF,
1939*67e74705SXin Li PrePostActionTy &) {
1940*67e74705SXin Li // Build call __kmpc_fork_call(loc, n, microtask, var1, .., varn);
1941*67e74705SXin Li auto &RT = CGF.CGM.getOpenMPRuntime();
1942*67e74705SXin Li llvm::Value *Args[] = {
1943*67e74705SXin Li RTLoc,
1944*67e74705SXin Li CGF.Builder.getInt32(CapturedVars.size()), // Number of captured vars
1945*67e74705SXin Li CGF.Builder.CreateBitCast(OutlinedFn, RT.getKmpc_MicroPointerTy())};
1946*67e74705SXin Li llvm::SmallVector<llvm::Value *, 16> RealArgs;
1947*67e74705SXin Li RealArgs.append(std::begin(Args), std::end(Args));
1948*67e74705SXin Li RealArgs.append(CapturedVars.begin(), CapturedVars.end());
1949*67e74705SXin Li
1950*67e74705SXin Li auto RTLFn = RT.createRuntimeFunction(OMPRTL__kmpc_fork_call);
1951*67e74705SXin Li CGF.EmitRuntimeCall(RTLFn, RealArgs);
1952*67e74705SXin Li };
1953*67e74705SXin Li auto &&ElseGen = [OutlinedFn, CapturedVars, RTLoc, Loc](CodeGenFunction &CGF,
1954*67e74705SXin Li PrePostActionTy &) {
1955*67e74705SXin Li auto &RT = CGF.CGM.getOpenMPRuntime();
1956*67e74705SXin Li auto ThreadID = RT.getThreadID(CGF, Loc);
1957*67e74705SXin Li // Build calls:
1958*67e74705SXin Li // __kmpc_serialized_parallel(&Loc, GTid);
1959*67e74705SXin Li llvm::Value *Args[] = {RTLoc, ThreadID};
1960*67e74705SXin Li CGF.EmitRuntimeCall(
1961*67e74705SXin Li RT.createRuntimeFunction(OMPRTL__kmpc_serialized_parallel), Args);
1962*67e74705SXin Li
1963*67e74705SXin Li // OutlinedFn(>id, &zero, CapturedStruct);
1964*67e74705SXin Li auto ThreadIDAddr = RT.emitThreadIDAddress(CGF, Loc);
1965*67e74705SXin Li Address ZeroAddr =
1966*67e74705SXin Li CGF.CreateTempAlloca(CGF.Int32Ty, CharUnits::fromQuantity(4),
1967*67e74705SXin Li /*Name*/ ".zero.addr");
1968*67e74705SXin Li CGF.InitTempAlloca(ZeroAddr, CGF.Builder.getInt32(/*C*/ 0));
1969*67e74705SXin Li llvm::SmallVector<llvm::Value *, 16> OutlinedFnArgs;
1970*67e74705SXin Li OutlinedFnArgs.push_back(ThreadIDAddr.getPointer());
1971*67e74705SXin Li OutlinedFnArgs.push_back(ZeroAddr.getPointer());
1972*67e74705SXin Li OutlinedFnArgs.append(CapturedVars.begin(), CapturedVars.end());
1973*67e74705SXin Li CGF.EmitCallOrInvoke(OutlinedFn, OutlinedFnArgs);
1974*67e74705SXin Li
1975*67e74705SXin Li // __kmpc_end_serialized_parallel(&Loc, GTid);
1976*67e74705SXin Li llvm::Value *EndArgs[] = {RT.emitUpdateLocation(CGF, Loc), ThreadID};
1977*67e74705SXin Li CGF.EmitRuntimeCall(
1978*67e74705SXin Li RT.createRuntimeFunction(OMPRTL__kmpc_end_serialized_parallel),
1979*67e74705SXin Li EndArgs);
1980*67e74705SXin Li };
1981*67e74705SXin Li if (IfCond)
1982*67e74705SXin Li emitOMPIfClause(CGF, IfCond, ThenGen, ElseGen);
1983*67e74705SXin Li else {
1984*67e74705SXin Li RegionCodeGenTy ThenRCG(ThenGen);
1985*67e74705SXin Li ThenRCG(CGF);
1986*67e74705SXin Li }
1987*67e74705SXin Li }
1988*67e74705SXin Li
1989*67e74705SXin Li // If we're inside an (outlined) parallel region, use the region info's
1990*67e74705SXin Li // thread-ID variable (it is passed in a first argument of the outlined function
1991*67e74705SXin Li // as "kmp_int32 *gtid"). Otherwise, if we're not inside parallel region, but in
1992*67e74705SXin Li // regular serial code region, get thread ID by calling kmp_int32
1993*67e74705SXin Li // kmpc_global_thread_num(ident_t *loc), stash this thread ID in a temporary and
1994*67e74705SXin Li // return the address of that temp.
emitThreadIDAddress(CodeGenFunction & CGF,SourceLocation Loc)1995*67e74705SXin Li Address CGOpenMPRuntime::emitThreadIDAddress(CodeGenFunction &CGF,
1996*67e74705SXin Li SourceLocation Loc) {
1997*67e74705SXin Li if (auto *OMPRegionInfo =
1998*67e74705SXin Li dyn_cast_or_null<CGOpenMPRegionInfo>(CGF.CapturedStmtInfo))
1999*67e74705SXin Li if (OMPRegionInfo->getThreadIDVariable())
2000*67e74705SXin Li return OMPRegionInfo->getThreadIDVariableLValue(CGF).getAddress();
2001*67e74705SXin Li
2002*67e74705SXin Li auto ThreadID = getThreadID(CGF, Loc);
2003*67e74705SXin Li auto Int32Ty =
2004*67e74705SXin Li CGF.getContext().getIntTypeForBitwidth(/*DestWidth*/ 32, /*Signed*/ true);
2005*67e74705SXin Li auto ThreadIDTemp = CGF.CreateMemTemp(Int32Ty, /*Name*/ ".threadid_temp.");
2006*67e74705SXin Li CGF.EmitStoreOfScalar(ThreadID,
2007*67e74705SXin Li CGF.MakeAddrLValue(ThreadIDTemp, Int32Ty));
2008*67e74705SXin Li
2009*67e74705SXin Li return ThreadIDTemp;
2010*67e74705SXin Li }
2011*67e74705SXin Li
2012*67e74705SXin Li llvm::Constant *
getOrCreateInternalVariable(llvm::Type * Ty,const llvm::Twine & Name)2013*67e74705SXin Li CGOpenMPRuntime::getOrCreateInternalVariable(llvm::Type *Ty,
2014*67e74705SXin Li const llvm::Twine &Name) {
2015*67e74705SXin Li SmallString<256> Buffer;
2016*67e74705SXin Li llvm::raw_svector_ostream Out(Buffer);
2017*67e74705SXin Li Out << Name;
2018*67e74705SXin Li auto RuntimeName = Out.str();
2019*67e74705SXin Li auto &Elem = *InternalVars.insert(std::make_pair(RuntimeName, nullptr)).first;
2020*67e74705SXin Li if (Elem.second) {
2021*67e74705SXin Li assert(Elem.second->getType()->getPointerElementType() == Ty &&
2022*67e74705SXin Li "OMP internal variable has different type than requested");
2023*67e74705SXin Li return &*Elem.second;
2024*67e74705SXin Li }
2025*67e74705SXin Li
2026*67e74705SXin Li return Elem.second = new llvm::GlobalVariable(
2027*67e74705SXin Li CGM.getModule(), Ty, /*IsConstant*/ false,
2028*67e74705SXin Li llvm::GlobalValue::CommonLinkage, llvm::Constant::getNullValue(Ty),
2029*67e74705SXin Li Elem.first());
2030*67e74705SXin Li }
2031*67e74705SXin Li
getCriticalRegionLock(StringRef CriticalName)2032*67e74705SXin Li llvm::Value *CGOpenMPRuntime::getCriticalRegionLock(StringRef CriticalName) {
2033*67e74705SXin Li llvm::Twine Name(".gomp_critical_user_", CriticalName);
2034*67e74705SXin Li return getOrCreateInternalVariable(KmpCriticalNameTy, Name.concat(".var"));
2035*67e74705SXin Li }
2036*67e74705SXin Li
2037*67e74705SXin Li namespace {
2038*67e74705SXin Li /// Common pre(post)-action for different OpenMP constructs.
2039*67e74705SXin Li class CommonActionTy final : public PrePostActionTy {
2040*67e74705SXin Li llvm::Value *EnterCallee;
2041*67e74705SXin Li ArrayRef<llvm::Value *> EnterArgs;
2042*67e74705SXin Li llvm::Value *ExitCallee;
2043*67e74705SXin Li ArrayRef<llvm::Value *> ExitArgs;
2044*67e74705SXin Li bool Conditional;
2045*67e74705SXin Li llvm::BasicBlock *ContBlock = nullptr;
2046*67e74705SXin Li
2047*67e74705SXin Li public:
CommonActionTy(llvm::Value * EnterCallee,ArrayRef<llvm::Value * > EnterArgs,llvm::Value * ExitCallee,ArrayRef<llvm::Value * > ExitArgs,bool Conditional=false)2048*67e74705SXin Li CommonActionTy(llvm::Value *EnterCallee, ArrayRef<llvm::Value *> EnterArgs,
2049*67e74705SXin Li llvm::Value *ExitCallee, ArrayRef<llvm::Value *> ExitArgs,
2050*67e74705SXin Li bool Conditional = false)
2051*67e74705SXin Li : EnterCallee(EnterCallee), EnterArgs(EnterArgs), ExitCallee(ExitCallee),
2052*67e74705SXin Li ExitArgs(ExitArgs), Conditional(Conditional) {}
Enter(CodeGenFunction & CGF)2053*67e74705SXin Li void Enter(CodeGenFunction &CGF) override {
2054*67e74705SXin Li llvm::Value *EnterRes = CGF.EmitRuntimeCall(EnterCallee, EnterArgs);
2055*67e74705SXin Li if (Conditional) {
2056*67e74705SXin Li llvm::Value *CallBool = CGF.Builder.CreateIsNotNull(EnterRes);
2057*67e74705SXin Li auto *ThenBlock = CGF.createBasicBlock("omp_if.then");
2058*67e74705SXin Li ContBlock = CGF.createBasicBlock("omp_if.end");
2059*67e74705SXin Li // Generate the branch (If-stmt)
2060*67e74705SXin Li CGF.Builder.CreateCondBr(CallBool, ThenBlock, ContBlock);
2061*67e74705SXin Li CGF.EmitBlock(ThenBlock);
2062*67e74705SXin Li }
2063*67e74705SXin Li }
Done(CodeGenFunction & CGF)2064*67e74705SXin Li void Done(CodeGenFunction &CGF) {
2065*67e74705SXin Li // Emit the rest of blocks/branches
2066*67e74705SXin Li CGF.EmitBranch(ContBlock);
2067*67e74705SXin Li CGF.EmitBlock(ContBlock, true);
2068*67e74705SXin Li }
Exit(CodeGenFunction & CGF)2069*67e74705SXin Li void Exit(CodeGenFunction &CGF) override {
2070*67e74705SXin Li CGF.EmitRuntimeCall(ExitCallee, ExitArgs);
2071*67e74705SXin Li }
2072*67e74705SXin Li };
2073*67e74705SXin Li } // anonymous namespace
2074*67e74705SXin Li
emitCriticalRegion(CodeGenFunction & CGF,StringRef CriticalName,const RegionCodeGenTy & CriticalOpGen,SourceLocation Loc,const Expr * Hint)2075*67e74705SXin Li void CGOpenMPRuntime::emitCriticalRegion(CodeGenFunction &CGF,
2076*67e74705SXin Li StringRef CriticalName,
2077*67e74705SXin Li const RegionCodeGenTy &CriticalOpGen,
2078*67e74705SXin Li SourceLocation Loc, const Expr *Hint) {
2079*67e74705SXin Li // __kmpc_critical[_with_hint](ident_t *, gtid, Lock[, hint]);
2080*67e74705SXin Li // CriticalOpGen();
2081*67e74705SXin Li // __kmpc_end_critical(ident_t *, gtid, Lock);
2082*67e74705SXin Li // Prepare arguments and build a call to __kmpc_critical
2083*67e74705SXin Li if (!CGF.HaveInsertPoint())
2084*67e74705SXin Li return;
2085*67e74705SXin Li llvm::Value *Args[] = {emitUpdateLocation(CGF, Loc), getThreadID(CGF, Loc),
2086*67e74705SXin Li getCriticalRegionLock(CriticalName)};
2087*67e74705SXin Li llvm::SmallVector<llvm::Value *, 4> EnterArgs(std::begin(Args),
2088*67e74705SXin Li std::end(Args));
2089*67e74705SXin Li if (Hint) {
2090*67e74705SXin Li EnterArgs.push_back(CGF.Builder.CreateIntCast(
2091*67e74705SXin Li CGF.EmitScalarExpr(Hint), CGM.IntPtrTy, /*isSigned=*/false));
2092*67e74705SXin Li }
2093*67e74705SXin Li CommonActionTy Action(
2094*67e74705SXin Li createRuntimeFunction(Hint ? OMPRTL__kmpc_critical_with_hint
2095*67e74705SXin Li : OMPRTL__kmpc_critical),
2096*67e74705SXin Li EnterArgs, createRuntimeFunction(OMPRTL__kmpc_end_critical), Args);
2097*67e74705SXin Li CriticalOpGen.setAction(Action);
2098*67e74705SXin Li emitInlinedDirective(CGF, OMPD_critical, CriticalOpGen);
2099*67e74705SXin Li }
2100*67e74705SXin Li
emitMasterRegion(CodeGenFunction & CGF,const RegionCodeGenTy & MasterOpGen,SourceLocation Loc)2101*67e74705SXin Li void CGOpenMPRuntime::emitMasterRegion(CodeGenFunction &CGF,
2102*67e74705SXin Li const RegionCodeGenTy &MasterOpGen,
2103*67e74705SXin Li SourceLocation Loc) {
2104*67e74705SXin Li if (!CGF.HaveInsertPoint())
2105*67e74705SXin Li return;
2106*67e74705SXin Li // if(__kmpc_master(ident_t *, gtid)) {
2107*67e74705SXin Li // MasterOpGen();
2108*67e74705SXin Li // __kmpc_end_master(ident_t *, gtid);
2109*67e74705SXin Li // }
2110*67e74705SXin Li // Prepare arguments and build a call to __kmpc_master
2111*67e74705SXin Li llvm::Value *Args[] = {emitUpdateLocation(CGF, Loc), getThreadID(CGF, Loc)};
2112*67e74705SXin Li CommonActionTy Action(createRuntimeFunction(OMPRTL__kmpc_master), Args,
2113*67e74705SXin Li createRuntimeFunction(OMPRTL__kmpc_end_master), Args,
2114*67e74705SXin Li /*Conditional=*/true);
2115*67e74705SXin Li MasterOpGen.setAction(Action);
2116*67e74705SXin Li emitInlinedDirective(CGF, OMPD_master, MasterOpGen);
2117*67e74705SXin Li Action.Done(CGF);
2118*67e74705SXin Li }
2119*67e74705SXin Li
emitTaskyieldCall(CodeGenFunction & CGF,SourceLocation Loc)2120*67e74705SXin Li void CGOpenMPRuntime::emitTaskyieldCall(CodeGenFunction &CGF,
2121*67e74705SXin Li SourceLocation Loc) {
2122*67e74705SXin Li if (!CGF.HaveInsertPoint())
2123*67e74705SXin Li return;
2124*67e74705SXin Li // Build call __kmpc_omp_taskyield(loc, thread_id, 0);
2125*67e74705SXin Li llvm::Value *Args[] = {
2126*67e74705SXin Li emitUpdateLocation(CGF, Loc), getThreadID(CGF, Loc),
2127*67e74705SXin Li llvm::ConstantInt::get(CGM.IntTy, /*V=*/0, /*isSigned=*/true)};
2128*67e74705SXin Li CGF.EmitRuntimeCall(createRuntimeFunction(OMPRTL__kmpc_omp_taskyield), Args);
2129*67e74705SXin Li if (auto *Region = dyn_cast_or_null<CGOpenMPRegionInfo>(CGF.CapturedStmtInfo))
2130*67e74705SXin Li Region->emitUntiedSwitch(CGF);
2131*67e74705SXin Li }
2132*67e74705SXin Li
emitTaskgroupRegion(CodeGenFunction & CGF,const RegionCodeGenTy & TaskgroupOpGen,SourceLocation Loc)2133*67e74705SXin Li void CGOpenMPRuntime::emitTaskgroupRegion(CodeGenFunction &CGF,
2134*67e74705SXin Li const RegionCodeGenTy &TaskgroupOpGen,
2135*67e74705SXin Li SourceLocation Loc) {
2136*67e74705SXin Li if (!CGF.HaveInsertPoint())
2137*67e74705SXin Li return;
2138*67e74705SXin Li // __kmpc_taskgroup(ident_t *, gtid);
2139*67e74705SXin Li // TaskgroupOpGen();
2140*67e74705SXin Li // __kmpc_end_taskgroup(ident_t *, gtid);
2141*67e74705SXin Li // Prepare arguments and build a call to __kmpc_taskgroup
2142*67e74705SXin Li llvm::Value *Args[] = {emitUpdateLocation(CGF, Loc), getThreadID(CGF, Loc)};
2143*67e74705SXin Li CommonActionTy Action(createRuntimeFunction(OMPRTL__kmpc_taskgroup), Args,
2144*67e74705SXin Li createRuntimeFunction(OMPRTL__kmpc_end_taskgroup),
2145*67e74705SXin Li Args);
2146*67e74705SXin Li TaskgroupOpGen.setAction(Action);
2147*67e74705SXin Li emitInlinedDirective(CGF, OMPD_taskgroup, TaskgroupOpGen);
2148*67e74705SXin Li }
2149*67e74705SXin Li
2150*67e74705SXin Li /// Given an array of pointers to variables, project the address of a
2151*67e74705SXin Li /// given variable.
emitAddrOfVarFromArray(CodeGenFunction & CGF,Address Array,unsigned Index,const VarDecl * Var)2152*67e74705SXin Li static Address emitAddrOfVarFromArray(CodeGenFunction &CGF, Address Array,
2153*67e74705SXin Li unsigned Index, const VarDecl *Var) {
2154*67e74705SXin Li // Pull out the pointer to the variable.
2155*67e74705SXin Li Address PtrAddr =
2156*67e74705SXin Li CGF.Builder.CreateConstArrayGEP(Array, Index, CGF.getPointerSize());
2157*67e74705SXin Li llvm::Value *Ptr = CGF.Builder.CreateLoad(PtrAddr);
2158*67e74705SXin Li
2159*67e74705SXin Li Address Addr = Address(Ptr, CGF.getContext().getDeclAlign(Var));
2160*67e74705SXin Li Addr = CGF.Builder.CreateElementBitCast(
2161*67e74705SXin Li Addr, CGF.ConvertTypeForMem(Var->getType()));
2162*67e74705SXin Li return Addr;
2163*67e74705SXin Li }
2164*67e74705SXin Li
emitCopyprivateCopyFunction(CodeGenModule & CGM,llvm::Type * ArgsType,ArrayRef<const Expr * > CopyprivateVars,ArrayRef<const Expr * > DestExprs,ArrayRef<const Expr * > SrcExprs,ArrayRef<const Expr * > AssignmentOps)2165*67e74705SXin Li static llvm::Value *emitCopyprivateCopyFunction(
2166*67e74705SXin Li CodeGenModule &CGM, llvm::Type *ArgsType,
2167*67e74705SXin Li ArrayRef<const Expr *> CopyprivateVars, ArrayRef<const Expr *> DestExprs,
2168*67e74705SXin Li ArrayRef<const Expr *> SrcExprs, ArrayRef<const Expr *> AssignmentOps) {
2169*67e74705SXin Li auto &C = CGM.getContext();
2170*67e74705SXin Li // void copy_func(void *LHSArg, void *RHSArg);
2171*67e74705SXin Li FunctionArgList Args;
2172*67e74705SXin Li ImplicitParamDecl LHSArg(C, /*DC=*/nullptr, SourceLocation(), /*Id=*/nullptr,
2173*67e74705SXin Li C.VoidPtrTy);
2174*67e74705SXin Li ImplicitParamDecl RHSArg(C, /*DC=*/nullptr, SourceLocation(), /*Id=*/nullptr,
2175*67e74705SXin Li C.VoidPtrTy);
2176*67e74705SXin Li Args.push_back(&LHSArg);
2177*67e74705SXin Li Args.push_back(&RHSArg);
2178*67e74705SXin Li auto &CGFI = CGM.getTypes().arrangeBuiltinFunctionDeclaration(C.VoidTy, Args);
2179*67e74705SXin Li auto *Fn = llvm::Function::Create(
2180*67e74705SXin Li CGM.getTypes().GetFunctionType(CGFI), llvm::GlobalValue::InternalLinkage,
2181*67e74705SXin Li ".omp.copyprivate.copy_func", &CGM.getModule());
2182*67e74705SXin Li CGM.SetInternalFunctionAttributes(/*D=*/nullptr, Fn, CGFI);
2183*67e74705SXin Li CodeGenFunction CGF(CGM);
2184*67e74705SXin Li CGF.StartFunction(GlobalDecl(), C.VoidTy, Fn, CGFI, Args);
2185*67e74705SXin Li // Dest = (void*[n])(LHSArg);
2186*67e74705SXin Li // Src = (void*[n])(RHSArg);
2187*67e74705SXin Li Address LHS(CGF.Builder.CreatePointerBitCastOrAddrSpaceCast(
2188*67e74705SXin Li CGF.Builder.CreateLoad(CGF.GetAddrOfLocalVar(&LHSArg)),
2189*67e74705SXin Li ArgsType), CGF.getPointerAlign());
2190*67e74705SXin Li Address RHS(CGF.Builder.CreatePointerBitCastOrAddrSpaceCast(
2191*67e74705SXin Li CGF.Builder.CreateLoad(CGF.GetAddrOfLocalVar(&RHSArg)),
2192*67e74705SXin Li ArgsType), CGF.getPointerAlign());
2193*67e74705SXin Li // *(Type0*)Dst[0] = *(Type0*)Src[0];
2194*67e74705SXin Li // *(Type1*)Dst[1] = *(Type1*)Src[1];
2195*67e74705SXin Li // ...
2196*67e74705SXin Li // *(Typen*)Dst[n] = *(Typen*)Src[n];
2197*67e74705SXin Li for (unsigned I = 0, E = AssignmentOps.size(); I < E; ++I) {
2198*67e74705SXin Li auto DestVar = cast<VarDecl>(cast<DeclRefExpr>(DestExprs[I])->getDecl());
2199*67e74705SXin Li Address DestAddr = emitAddrOfVarFromArray(CGF, LHS, I, DestVar);
2200*67e74705SXin Li
2201*67e74705SXin Li auto SrcVar = cast<VarDecl>(cast<DeclRefExpr>(SrcExprs[I])->getDecl());
2202*67e74705SXin Li Address SrcAddr = emitAddrOfVarFromArray(CGF, RHS, I, SrcVar);
2203*67e74705SXin Li
2204*67e74705SXin Li auto *VD = cast<DeclRefExpr>(CopyprivateVars[I])->getDecl();
2205*67e74705SXin Li QualType Type = VD->getType();
2206*67e74705SXin Li CGF.EmitOMPCopy(Type, DestAddr, SrcAddr, DestVar, SrcVar, AssignmentOps[I]);
2207*67e74705SXin Li }
2208*67e74705SXin Li CGF.FinishFunction();
2209*67e74705SXin Li return Fn;
2210*67e74705SXin Li }
2211*67e74705SXin Li
emitSingleRegion(CodeGenFunction & CGF,const RegionCodeGenTy & SingleOpGen,SourceLocation Loc,ArrayRef<const Expr * > CopyprivateVars,ArrayRef<const Expr * > SrcExprs,ArrayRef<const Expr * > DstExprs,ArrayRef<const Expr * > AssignmentOps)2212*67e74705SXin Li void CGOpenMPRuntime::emitSingleRegion(CodeGenFunction &CGF,
2213*67e74705SXin Li const RegionCodeGenTy &SingleOpGen,
2214*67e74705SXin Li SourceLocation Loc,
2215*67e74705SXin Li ArrayRef<const Expr *> CopyprivateVars,
2216*67e74705SXin Li ArrayRef<const Expr *> SrcExprs,
2217*67e74705SXin Li ArrayRef<const Expr *> DstExprs,
2218*67e74705SXin Li ArrayRef<const Expr *> AssignmentOps) {
2219*67e74705SXin Li if (!CGF.HaveInsertPoint())
2220*67e74705SXin Li return;
2221*67e74705SXin Li assert(CopyprivateVars.size() == SrcExprs.size() &&
2222*67e74705SXin Li CopyprivateVars.size() == DstExprs.size() &&
2223*67e74705SXin Li CopyprivateVars.size() == AssignmentOps.size());
2224*67e74705SXin Li auto &C = CGM.getContext();
2225*67e74705SXin Li // int32 did_it = 0;
2226*67e74705SXin Li // if(__kmpc_single(ident_t *, gtid)) {
2227*67e74705SXin Li // SingleOpGen();
2228*67e74705SXin Li // __kmpc_end_single(ident_t *, gtid);
2229*67e74705SXin Li // did_it = 1;
2230*67e74705SXin Li // }
2231*67e74705SXin Li // call __kmpc_copyprivate(ident_t *, gtid, <buf_size>, <copyprivate list>,
2232*67e74705SXin Li // <copy_func>, did_it);
2233*67e74705SXin Li
2234*67e74705SXin Li Address DidIt = Address::invalid();
2235*67e74705SXin Li if (!CopyprivateVars.empty()) {
2236*67e74705SXin Li // int32 did_it = 0;
2237*67e74705SXin Li auto KmpInt32Ty = C.getIntTypeForBitwidth(/*DestWidth=*/32, /*Signed=*/1);
2238*67e74705SXin Li DidIt = CGF.CreateMemTemp(KmpInt32Ty, ".omp.copyprivate.did_it");
2239*67e74705SXin Li CGF.Builder.CreateStore(CGF.Builder.getInt32(0), DidIt);
2240*67e74705SXin Li }
2241*67e74705SXin Li // Prepare arguments and build a call to __kmpc_single
2242*67e74705SXin Li llvm::Value *Args[] = {emitUpdateLocation(CGF, Loc), getThreadID(CGF, Loc)};
2243*67e74705SXin Li CommonActionTy Action(createRuntimeFunction(OMPRTL__kmpc_single), Args,
2244*67e74705SXin Li createRuntimeFunction(OMPRTL__kmpc_end_single), Args,
2245*67e74705SXin Li /*Conditional=*/true);
2246*67e74705SXin Li SingleOpGen.setAction(Action);
2247*67e74705SXin Li emitInlinedDirective(CGF, OMPD_single, SingleOpGen);
2248*67e74705SXin Li if (DidIt.isValid()) {
2249*67e74705SXin Li // did_it = 1;
2250*67e74705SXin Li CGF.Builder.CreateStore(CGF.Builder.getInt32(1), DidIt);
2251*67e74705SXin Li }
2252*67e74705SXin Li Action.Done(CGF);
2253*67e74705SXin Li // call __kmpc_copyprivate(ident_t *, gtid, <buf_size>, <copyprivate list>,
2254*67e74705SXin Li // <copy_func>, did_it);
2255*67e74705SXin Li if (DidIt.isValid()) {
2256*67e74705SXin Li llvm::APInt ArraySize(/*unsigned int numBits=*/32, CopyprivateVars.size());
2257*67e74705SXin Li auto CopyprivateArrayTy =
2258*67e74705SXin Li C.getConstantArrayType(C.VoidPtrTy, ArraySize, ArrayType::Normal,
2259*67e74705SXin Li /*IndexTypeQuals=*/0);
2260*67e74705SXin Li // Create a list of all private variables for copyprivate.
2261*67e74705SXin Li Address CopyprivateList =
2262*67e74705SXin Li CGF.CreateMemTemp(CopyprivateArrayTy, ".omp.copyprivate.cpr_list");
2263*67e74705SXin Li for (unsigned I = 0, E = CopyprivateVars.size(); I < E; ++I) {
2264*67e74705SXin Li Address Elem = CGF.Builder.CreateConstArrayGEP(
2265*67e74705SXin Li CopyprivateList, I, CGF.getPointerSize());
2266*67e74705SXin Li CGF.Builder.CreateStore(
2267*67e74705SXin Li CGF.Builder.CreatePointerBitCastOrAddrSpaceCast(
2268*67e74705SXin Li CGF.EmitLValue(CopyprivateVars[I]).getPointer(), CGF.VoidPtrTy),
2269*67e74705SXin Li Elem);
2270*67e74705SXin Li }
2271*67e74705SXin Li // Build function that copies private values from single region to all other
2272*67e74705SXin Li // threads in the corresponding parallel region.
2273*67e74705SXin Li auto *CpyFn = emitCopyprivateCopyFunction(
2274*67e74705SXin Li CGM, CGF.ConvertTypeForMem(CopyprivateArrayTy)->getPointerTo(),
2275*67e74705SXin Li CopyprivateVars, SrcExprs, DstExprs, AssignmentOps);
2276*67e74705SXin Li auto *BufSize = CGF.getTypeSize(CopyprivateArrayTy);
2277*67e74705SXin Li Address CL =
2278*67e74705SXin Li CGF.Builder.CreatePointerBitCastOrAddrSpaceCast(CopyprivateList,
2279*67e74705SXin Li CGF.VoidPtrTy);
2280*67e74705SXin Li auto *DidItVal = CGF.Builder.CreateLoad(DidIt);
2281*67e74705SXin Li llvm::Value *Args[] = {
2282*67e74705SXin Li emitUpdateLocation(CGF, Loc), // ident_t *<loc>
2283*67e74705SXin Li getThreadID(CGF, Loc), // i32 <gtid>
2284*67e74705SXin Li BufSize, // size_t <buf_size>
2285*67e74705SXin Li CL.getPointer(), // void *<copyprivate list>
2286*67e74705SXin Li CpyFn, // void (*) (void *, void *) <copy_func>
2287*67e74705SXin Li DidItVal // i32 did_it
2288*67e74705SXin Li };
2289*67e74705SXin Li CGF.EmitRuntimeCall(createRuntimeFunction(OMPRTL__kmpc_copyprivate), Args);
2290*67e74705SXin Li }
2291*67e74705SXin Li }
2292*67e74705SXin Li
emitOrderedRegion(CodeGenFunction & CGF,const RegionCodeGenTy & OrderedOpGen,SourceLocation Loc,bool IsThreads)2293*67e74705SXin Li void CGOpenMPRuntime::emitOrderedRegion(CodeGenFunction &CGF,
2294*67e74705SXin Li const RegionCodeGenTy &OrderedOpGen,
2295*67e74705SXin Li SourceLocation Loc, bool IsThreads) {
2296*67e74705SXin Li if (!CGF.HaveInsertPoint())
2297*67e74705SXin Li return;
2298*67e74705SXin Li // __kmpc_ordered(ident_t *, gtid);
2299*67e74705SXin Li // OrderedOpGen();
2300*67e74705SXin Li // __kmpc_end_ordered(ident_t *, gtid);
2301*67e74705SXin Li // Prepare arguments and build a call to __kmpc_ordered
2302*67e74705SXin Li if (IsThreads) {
2303*67e74705SXin Li llvm::Value *Args[] = {emitUpdateLocation(CGF, Loc), getThreadID(CGF, Loc)};
2304*67e74705SXin Li CommonActionTy Action(createRuntimeFunction(OMPRTL__kmpc_ordered), Args,
2305*67e74705SXin Li createRuntimeFunction(OMPRTL__kmpc_end_ordered),
2306*67e74705SXin Li Args);
2307*67e74705SXin Li OrderedOpGen.setAction(Action);
2308*67e74705SXin Li emitInlinedDirective(CGF, OMPD_ordered, OrderedOpGen);
2309*67e74705SXin Li return;
2310*67e74705SXin Li }
2311*67e74705SXin Li emitInlinedDirective(CGF, OMPD_ordered, OrderedOpGen);
2312*67e74705SXin Li }
2313*67e74705SXin Li
emitBarrierCall(CodeGenFunction & CGF,SourceLocation Loc,OpenMPDirectiveKind Kind,bool EmitChecks,bool ForceSimpleCall)2314*67e74705SXin Li void CGOpenMPRuntime::emitBarrierCall(CodeGenFunction &CGF, SourceLocation Loc,
2315*67e74705SXin Li OpenMPDirectiveKind Kind, bool EmitChecks,
2316*67e74705SXin Li bool ForceSimpleCall) {
2317*67e74705SXin Li if (!CGF.HaveInsertPoint())
2318*67e74705SXin Li return;
2319*67e74705SXin Li // Build call __kmpc_cancel_barrier(loc, thread_id);
2320*67e74705SXin Li // Build call __kmpc_barrier(loc, thread_id);
2321*67e74705SXin Li unsigned Flags;
2322*67e74705SXin Li if (Kind == OMPD_for)
2323*67e74705SXin Li Flags = OMP_IDENT_BARRIER_IMPL_FOR;
2324*67e74705SXin Li else if (Kind == OMPD_sections)
2325*67e74705SXin Li Flags = OMP_IDENT_BARRIER_IMPL_SECTIONS;
2326*67e74705SXin Li else if (Kind == OMPD_single)
2327*67e74705SXin Li Flags = OMP_IDENT_BARRIER_IMPL_SINGLE;
2328*67e74705SXin Li else if (Kind == OMPD_barrier)
2329*67e74705SXin Li Flags = OMP_IDENT_BARRIER_EXPL;
2330*67e74705SXin Li else
2331*67e74705SXin Li Flags = OMP_IDENT_BARRIER_IMPL;
2332*67e74705SXin Li // Build call __kmpc_cancel_barrier(loc, thread_id) or __kmpc_barrier(loc,
2333*67e74705SXin Li // thread_id);
2334*67e74705SXin Li llvm::Value *Args[] = {emitUpdateLocation(CGF, Loc, Flags),
2335*67e74705SXin Li getThreadID(CGF, Loc)};
2336*67e74705SXin Li if (auto *OMPRegionInfo =
2337*67e74705SXin Li dyn_cast_or_null<CGOpenMPRegionInfo>(CGF.CapturedStmtInfo)) {
2338*67e74705SXin Li if (!ForceSimpleCall && OMPRegionInfo->hasCancel()) {
2339*67e74705SXin Li auto *Result = CGF.EmitRuntimeCall(
2340*67e74705SXin Li createRuntimeFunction(OMPRTL__kmpc_cancel_barrier), Args);
2341*67e74705SXin Li if (EmitChecks) {
2342*67e74705SXin Li // if (__kmpc_cancel_barrier()) {
2343*67e74705SXin Li // exit from construct;
2344*67e74705SXin Li // }
2345*67e74705SXin Li auto *ExitBB = CGF.createBasicBlock(".cancel.exit");
2346*67e74705SXin Li auto *ContBB = CGF.createBasicBlock(".cancel.continue");
2347*67e74705SXin Li auto *Cmp = CGF.Builder.CreateIsNotNull(Result);
2348*67e74705SXin Li CGF.Builder.CreateCondBr(Cmp, ExitBB, ContBB);
2349*67e74705SXin Li CGF.EmitBlock(ExitBB);
2350*67e74705SXin Li // exit from construct;
2351*67e74705SXin Li auto CancelDestination =
2352*67e74705SXin Li CGF.getOMPCancelDestination(OMPRegionInfo->getDirectiveKind());
2353*67e74705SXin Li CGF.EmitBranchThroughCleanup(CancelDestination);
2354*67e74705SXin Li CGF.EmitBlock(ContBB, /*IsFinished=*/true);
2355*67e74705SXin Li }
2356*67e74705SXin Li return;
2357*67e74705SXin Li }
2358*67e74705SXin Li }
2359*67e74705SXin Li CGF.EmitRuntimeCall(createRuntimeFunction(OMPRTL__kmpc_barrier), Args);
2360*67e74705SXin Li }
2361*67e74705SXin Li
2362*67e74705SXin Li /// \brief Map the OpenMP loop schedule to the runtime enumeration.
getRuntimeSchedule(OpenMPScheduleClauseKind ScheduleKind,bool Chunked,bool Ordered)2363*67e74705SXin Li static OpenMPSchedType getRuntimeSchedule(OpenMPScheduleClauseKind ScheduleKind,
2364*67e74705SXin Li bool Chunked, bool Ordered) {
2365*67e74705SXin Li switch (ScheduleKind) {
2366*67e74705SXin Li case OMPC_SCHEDULE_static:
2367*67e74705SXin Li return Chunked ? (Ordered ? OMP_ord_static_chunked : OMP_sch_static_chunked)
2368*67e74705SXin Li : (Ordered ? OMP_ord_static : OMP_sch_static);
2369*67e74705SXin Li case OMPC_SCHEDULE_dynamic:
2370*67e74705SXin Li return Ordered ? OMP_ord_dynamic_chunked : OMP_sch_dynamic_chunked;
2371*67e74705SXin Li case OMPC_SCHEDULE_guided:
2372*67e74705SXin Li return Ordered ? OMP_ord_guided_chunked : OMP_sch_guided_chunked;
2373*67e74705SXin Li case OMPC_SCHEDULE_runtime:
2374*67e74705SXin Li return Ordered ? OMP_ord_runtime : OMP_sch_runtime;
2375*67e74705SXin Li case OMPC_SCHEDULE_auto:
2376*67e74705SXin Li return Ordered ? OMP_ord_auto : OMP_sch_auto;
2377*67e74705SXin Li case OMPC_SCHEDULE_unknown:
2378*67e74705SXin Li assert(!Chunked && "chunk was specified but schedule kind not known");
2379*67e74705SXin Li return Ordered ? OMP_ord_static : OMP_sch_static;
2380*67e74705SXin Li }
2381*67e74705SXin Li llvm_unreachable("Unexpected runtime schedule");
2382*67e74705SXin Li }
2383*67e74705SXin Li
2384*67e74705SXin Li /// \brief Map the OpenMP distribute schedule to the runtime enumeration.
2385*67e74705SXin Li static OpenMPSchedType
getRuntimeSchedule(OpenMPDistScheduleClauseKind ScheduleKind,bool Chunked)2386*67e74705SXin Li getRuntimeSchedule(OpenMPDistScheduleClauseKind ScheduleKind, bool Chunked) {
2387*67e74705SXin Li // only static is allowed for dist_schedule
2388*67e74705SXin Li return Chunked ? OMP_dist_sch_static_chunked : OMP_dist_sch_static;
2389*67e74705SXin Li }
2390*67e74705SXin Li
isStaticNonchunked(OpenMPScheduleClauseKind ScheduleKind,bool Chunked) const2391*67e74705SXin Li bool CGOpenMPRuntime::isStaticNonchunked(OpenMPScheduleClauseKind ScheduleKind,
2392*67e74705SXin Li bool Chunked) const {
2393*67e74705SXin Li auto Schedule = getRuntimeSchedule(ScheduleKind, Chunked, /*Ordered=*/false);
2394*67e74705SXin Li return Schedule == OMP_sch_static;
2395*67e74705SXin Li }
2396*67e74705SXin Li
isStaticNonchunked(OpenMPDistScheduleClauseKind ScheduleKind,bool Chunked) const2397*67e74705SXin Li bool CGOpenMPRuntime::isStaticNonchunked(
2398*67e74705SXin Li OpenMPDistScheduleClauseKind ScheduleKind, bool Chunked) const {
2399*67e74705SXin Li auto Schedule = getRuntimeSchedule(ScheduleKind, Chunked);
2400*67e74705SXin Li return Schedule == OMP_dist_sch_static;
2401*67e74705SXin Li }
2402*67e74705SXin Li
2403*67e74705SXin Li
isDynamic(OpenMPScheduleClauseKind ScheduleKind) const2404*67e74705SXin Li bool CGOpenMPRuntime::isDynamic(OpenMPScheduleClauseKind ScheduleKind) const {
2405*67e74705SXin Li auto Schedule =
2406*67e74705SXin Li getRuntimeSchedule(ScheduleKind, /*Chunked=*/false, /*Ordered=*/false);
2407*67e74705SXin Li assert(Schedule != OMP_sch_static_chunked && "cannot be chunked here");
2408*67e74705SXin Li return Schedule != OMP_sch_static;
2409*67e74705SXin Li }
2410*67e74705SXin Li
addMonoNonMonoModifier(OpenMPSchedType Schedule,OpenMPScheduleClauseModifier M1,OpenMPScheduleClauseModifier M2)2411*67e74705SXin Li static int addMonoNonMonoModifier(OpenMPSchedType Schedule,
2412*67e74705SXin Li OpenMPScheduleClauseModifier M1,
2413*67e74705SXin Li OpenMPScheduleClauseModifier M2) {
2414*67e74705SXin Li int Modifier = 0;
2415*67e74705SXin Li switch (M1) {
2416*67e74705SXin Li case OMPC_SCHEDULE_MODIFIER_monotonic:
2417*67e74705SXin Li Modifier = OMP_sch_modifier_monotonic;
2418*67e74705SXin Li break;
2419*67e74705SXin Li case OMPC_SCHEDULE_MODIFIER_nonmonotonic:
2420*67e74705SXin Li Modifier = OMP_sch_modifier_nonmonotonic;
2421*67e74705SXin Li break;
2422*67e74705SXin Li case OMPC_SCHEDULE_MODIFIER_simd:
2423*67e74705SXin Li if (Schedule == OMP_sch_static_chunked)
2424*67e74705SXin Li Schedule = OMP_sch_static_balanced_chunked;
2425*67e74705SXin Li break;
2426*67e74705SXin Li case OMPC_SCHEDULE_MODIFIER_last:
2427*67e74705SXin Li case OMPC_SCHEDULE_MODIFIER_unknown:
2428*67e74705SXin Li break;
2429*67e74705SXin Li }
2430*67e74705SXin Li switch (M2) {
2431*67e74705SXin Li case OMPC_SCHEDULE_MODIFIER_monotonic:
2432*67e74705SXin Li Modifier = OMP_sch_modifier_monotonic;
2433*67e74705SXin Li break;
2434*67e74705SXin Li case OMPC_SCHEDULE_MODIFIER_nonmonotonic:
2435*67e74705SXin Li Modifier = OMP_sch_modifier_nonmonotonic;
2436*67e74705SXin Li break;
2437*67e74705SXin Li case OMPC_SCHEDULE_MODIFIER_simd:
2438*67e74705SXin Li if (Schedule == OMP_sch_static_chunked)
2439*67e74705SXin Li Schedule = OMP_sch_static_balanced_chunked;
2440*67e74705SXin Li break;
2441*67e74705SXin Li case OMPC_SCHEDULE_MODIFIER_last:
2442*67e74705SXin Li case OMPC_SCHEDULE_MODIFIER_unknown:
2443*67e74705SXin Li break;
2444*67e74705SXin Li }
2445*67e74705SXin Li return Schedule | Modifier;
2446*67e74705SXin Li }
2447*67e74705SXin Li
emitForDispatchInit(CodeGenFunction & CGF,SourceLocation Loc,const OpenMPScheduleTy & ScheduleKind,unsigned IVSize,bool IVSigned,bool Ordered,llvm::Value * UB,llvm::Value * Chunk)2448*67e74705SXin Li void CGOpenMPRuntime::emitForDispatchInit(CodeGenFunction &CGF,
2449*67e74705SXin Li SourceLocation Loc,
2450*67e74705SXin Li const OpenMPScheduleTy &ScheduleKind,
2451*67e74705SXin Li unsigned IVSize, bool IVSigned,
2452*67e74705SXin Li bool Ordered, llvm::Value *UB,
2453*67e74705SXin Li llvm::Value *Chunk) {
2454*67e74705SXin Li if (!CGF.HaveInsertPoint())
2455*67e74705SXin Li return;
2456*67e74705SXin Li OpenMPSchedType Schedule =
2457*67e74705SXin Li getRuntimeSchedule(ScheduleKind.Schedule, Chunk != nullptr, Ordered);
2458*67e74705SXin Li assert(Ordered ||
2459*67e74705SXin Li (Schedule != OMP_sch_static && Schedule != OMP_sch_static_chunked &&
2460*67e74705SXin Li Schedule != OMP_ord_static && Schedule != OMP_ord_static_chunked &&
2461*67e74705SXin Li Schedule != OMP_sch_static_balanced_chunked));
2462*67e74705SXin Li // Call __kmpc_dispatch_init(
2463*67e74705SXin Li // ident_t *loc, kmp_int32 tid, kmp_int32 schedule,
2464*67e74705SXin Li // kmp_int[32|64] lower, kmp_int[32|64] upper,
2465*67e74705SXin Li // kmp_int[32|64] stride, kmp_int[32|64] chunk);
2466*67e74705SXin Li
2467*67e74705SXin Li // If the Chunk was not specified in the clause - use default value 1.
2468*67e74705SXin Li if (Chunk == nullptr)
2469*67e74705SXin Li Chunk = CGF.Builder.getIntN(IVSize, 1);
2470*67e74705SXin Li llvm::Value *Args[] = {
2471*67e74705SXin Li emitUpdateLocation(CGF, Loc), getThreadID(CGF, Loc),
2472*67e74705SXin Li CGF.Builder.getInt32(addMonoNonMonoModifier(
2473*67e74705SXin Li Schedule, ScheduleKind.M1, ScheduleKind.M2)), // Schedule type
2474*67e74705SXin Li CGF.Builder.getIntN(IVSize, 0), // Lower
2475*67e74705SXin Li UB, // Upper
2476*67e74705SXin Li CGF.Builder.getIntN(IVSize, 1), // Stride
2477*67e74705SXin Li Chunk // Chunk
2478*67e74705SXin Li };
2479*67e74705SXin Li CGF.EmitRuntimeCall(createDispatchInitFunction(IVSize, IVSigned), Args);
2480*67e74705SXin Li }
2481*67e74705SXin Li
emitForStaticInitCall(CodeGenFunction & CGF,llvm::Value * UpdateLocation,llvm::Value * ThreadId,llvm::Constant * ForStaticInitFunction,OpenMPSchedType Schedule,OpenMPScheduleClauseModifier M1,OpenMPScheduleClauseModifier M2,unsigned IVSize,bool Ordered,Address IL,Address LB,Address UB,Address ST,llvm::Value * Chunk)2482*67e74705SXin Li static void emitForStaticInitCall(
2483*67e74705SXin Li CodeGenFunction &CGF, llvm::Value *UpdateLocation, llvm::Value *ThreadId,
2484*67e74705SXin Li llvm::Constant *ForStaticInitFunction, OpenMPSchedType Schedule,
2485*67e74705SXin Li OpenMPScheduleClauseModifier M1, OpenMPScheduleClauseModifier M2,
2486*67e74705SXin Li unsigned IVSize, bool Ordered, Address IL, Address LB, Address UB,
2487*67e74705SXin Li Address ST, llvm::Value *Chunk) {
2488*67e74705SXin Li if (!CGF.HaveInsertPoint())
2489*67e74705SXin Li return;
2490*67e74705SXin Li
2491*67e74705SXin Li assert(!Ordered);
2492*67e74705SXin Li assert(Schedule == OMP_sch_static || Schedule == OMP_sch_static_chunked ||
2493*67e74705SXin Li Schedule == OMP_sch_static_balanced_chunked ||
2494*67e74705SXin Li Schedule == OMP_ord_static || Schedule == OMP_ord_static_chunked ||
2495*67e74705SXin Li Schedule == OMP_dist_sch_static ||
2496*67e74705SXin Li Schedule == OMP_dist_sch_static_chunked);
2497*67e74705SXin Li
2498*67e74705SXin Li // Call __kmpc_for_static_init(
2499*67e74705SXin Li // ident_t *loc, kmp_int32 tid, kmp_int32 schedtype,
2500*67e74705SXin Li // kmp_int32 *p_lastiter, kmp_int[32|64] *p_lower,
2501*67e74705SXin Li // kmp_int[32|64] *p_upper, kmp_int[32|64] *p_stride,
2502*67e74705SXin Li // kmp_int[32|64] incr, kmp_int[32|64] chunk);
2503*67e74705SXin Li if (Chunk == nullptr) {
2504*67e74705SXin Li assert((Schedule == OMP_sch_static || Schedule == OMP_ord_static ||
2505*67e74705SXin Li Schedule == OMP_dist_sch_static) &&
2506*67e74705SXin Li "expected static non-chunked schedule");
2507*67e74705SXin Li // If the Chunk was not specified in the clause - use default value 1.
2508*67e74705SXin Li Chunk = CGF.Builder.getIntN(IVSize, 1);
2509*67e74705SXin Li } else {
2510*67e74705SXin Li assert((Schedule == OMP_sch_static_chunked ||
2511*67e74705SXin Li Schedule == OMP_sch_static_balanced_chunked ||
2512*67e74705SXin Li Schedule == OMP_ord_static_chunked ||
2513*67e74705SXin Li Schedule == OMP_dist_sch_static_chunked) &&
2514*67e74705SXin Li "expected static chunked schedule");
2515*67e74705SXin Li }
2516*67e74705SXin Li llvm::Value *Args[] = {
2517*67e74705SXin Li UpdateLocation, ThreadId, CGF.Builder.getInt32(addMonoNonMonoModifier(
2518*67e74705SXin Li Schedule, M1, M2)), // Schedule type
2519*67e74705SXin Li IL.getPointer(), // &isLastIter
2520*67e74705SXin Li LB.getPointer(), // &LB
2521*67e74705SXin Li UB.getPointer(), // &UB
2522*67e74705SXin Li ST.getPointer(), // &Stride
2523*67e74705SXin Li CGF.Builder.getIntN(IVSize, 1), // Incr
2524*67e74705SXin Li Chunk // Chunk
2525*67e74705SXin Li };
2526*67e74705SXin Li CGF.EmitRuntimeCall(ForStaticInitFunction, Args);
2527*67e74705SXin Li }
2528*67e74705SXin Li
emitForStaticInit(CodeGenFunction & CGF,SourceLocation Loc,const OpenMPScheduleTy & ScheduleKind,unsigned IVSize,bool IVSigned,bool Ordered,Address IL,Address LB,Address UB,Address ST,llvm::Value * Chunk)2529*67e74705SXin Li void CGOpenMPRuntime::emitForStaticInit(CodeGenFunction &CGF,
2530*67e74705SXin Li SourceLocation Loc,
2531*67e74705SXin Li const OpenMPScheduleTy &ScheduleKind,
2532*67e74705SXin Li unsigned IVSize, bool IVSigned,
2533*67e74705SXin Li bool Ordered, Address IL, Address LB,
2534*67e74705SXin Li Address UB, Address ST,
2535*67e74705SXin Li llvm::Value *Chunk) {
2536*67e74705SXin Li OpenMPSchedType ScheduleNum =
2537*67e74705SXin Li getRuntimeSchedule(ScheduleKind.Schedule, Chunk != nullptr, Ordered);
2538*67e74705SXin Li auto *UpdatedLocation = emitUpdateLocation(CGF, Loc);
2539*67e74705SXin Li auto *ThreadId = getThreadID(CGF, Loc);
2540*67e74705SXin Li auto *StaticInitFunction = createForStaticInitFunction(IVSize, IVSigned);
2541*67e74705SXin Li emitForStaticInitCall(CGF, UpdatedLocation, ThreadId, StaticInitFunction,
2542*67e74705SXin Li ScheduleNum, ScheduleKind.M1, ScheduleKind.M2, IVSize,
2543*67e74705SXin Li Ordered, IL, LB, UB, ST, Chunk);
2544*67e74705SXin Li }
2545*67e74705SXin Li
emitDistributeStaticInit(CodeGenFunction & CGF,SourceLocation Loc,OpenMPDistScheduleClauseKind SchedKind,unsigned IVSize,bool IVSigned,bool Ordered,Address IL,Address LB,Address UB,Address ST,llvm::Value * Chunk)2546*67e74705SXin Li void CGOpenMPRuntime::emitDistributeStaticInit(
2547*67e74705SXin Li CodeGenFunction &CGF, SourceLocation Loc,
2548*67e74705SXin Li OpenMPDistScheduleClauseKind SchedKind, unsigned IVSize, bool IVSigned,
2549*67e74705SXin Li bool Ordered, Address IL, Address LB, Address UB, Address ST,
2550*67e74705SXin Li llvm::Value *Chunk) {
2551*67e74705SXin Li OpenMPSchedType ScheduleNum = getRuntimeSchedule(SchedKind, Chunk != nullptr);
2552*67e74705SXin Li auto *UpdatedLocation = emitUpdateLocation(CGF, Loc);
2553*67e74705SXin Li auto *ThreadId = getThreadID(CGF, Loc);
2554*67e74705SXin Li auto *StaticInitFunction = createForStaticInitFunction(IVSize, IVSigned);
2555*67e74705SXin Li emitForStaticInitCall(CGF, UpdatedLocation, ThreadId, StaticInitFunction,
2556*67e74705SXin Li ScheduleNum, OMPC_SCHEDULE_MODIFIER_unknown,
2557*67e74705SXin Li OMPC_SCHEDULE_MODIFIER_unknown, IVSize, Ordered, IL, LB,
2558*67e74705SXin Li UB, ST, Chunk);
2559*67e74705SXin Li }
2560*67e74705SXin Li
emitForStaticFinish(CodeGenFunction & CGF,SourceLocation Loc)2561*67e74705SXin Li void CGOpenMPRuntime::emitForStaticFinish(CodeGenFunction &CGF,
2562*67e74705SXin Li SourceLocation Loc) {
2563*67e74705SXin Li if (!CGF.HaveInsertPoint())
2564*67e74705SXin Li return;
2565*67e74705SXin Li // Call __kmpc_for_static_fini(ident_t *loc, kmp_int32 tid);
2566*67e74705SXin Li llvm::Value *Args[] = {emitUpdateLocation(CGF, Loc), getThreadID(CGF, Loc)};
2567*67e74705SXin Li CGF.EmitRuntimeCall(createRuntimeFunction(OMPRTL__kmpc_for_static_fini),
2568*67e74705SXin Li Args);
2569*67e74705SXin Li }
2570*67e74705SXin Li
emitForOrderedIterationEnd(CodeGenFunction & CGF,SourceLocation Loc,unsigned IVSize,bool IVSigned)2571*67e74705SXin Li void CGOpenMPRuntime::emitForOrderedIterationEnd(CodeGenFunction &CGF,
2572*67e74705SXin Li SourceLocation Loc,
2573*67e74705SXin Li unsigned IVSize,
2574*67e74705SXin Li bool IVSigned) {
2575*67e74705SXin Li if (!CGF.HaveInsertPoint())
2576*67e74705SXin Li return;
2577*67e74705SXin Li // Call __kmpc_for_dynamic_fini_(4|8)[u](ident_t *loc, kmp_int32 tid);
2578*67e74705SXin Li llvm::Value *Args[] = {emitUpdateLocation(CGF, Loc), getThreadID(CGF, Loc)};
2579*67e74705SXin Li CGF.EmitRuntimeCall(createDispatchFiniFunction(IVSize, IVSigned), Args);
2580*67e74705SXin Li }
2581*67e74705SXin Li
emitForNext(CodeGenFunction & CGF,SourceLocation Loc,unsigned IVSize,bool IVSigned,Address IL,Address LB,Address UB,Address ST)2582*67e74705SXin Li llvm::Value *CGOpenMPRuntime::emitForNext(CodeGenFunction &CGF,
2583*67e74705SXin Li SourceLocation Loc, unsigned IVSize,
2584*67e74705SXin Li bool IVSigned, Address IL,
2585*67e74705SXin Li Address LB, Address UB,
2586*67e74705SXin Li Address ST) {
2587*67e74705SXin Li // Call __kmpc_dispatch_next(
2588*67e74705SXin Li // ident_t *loc, kmp_int32 tid, kmp_int32 *p_lastiter,
2589*67e74705SXin Li // kmp_int[32|64] *p_lower, kmp_int[32|64] *p_upper,
2590*67e74705SXin Li // kmp_int[32|64] *p_stride);
2591*67e74705SXin Li llvm::Value *Args[] = {
2592*67e74705SXin Li emitUpdateLocation(CGF, Loc),
2593*67e74705SXin Li getThreadID(CGF, Loc),
2594*67e74705SXin Li IL.getPointer(), // &isLastIter
2595*67e74705SXin Li LB.getPointer(), // &Lower
2596*67e74705SXin Li UB.getPointer(), // &Upper
2597*67e74705SXin Li ST.getPointer() // &Stride
2598*67e74705SXin Li };
2599*67e74705SXin Li llvm::Value *Call =
2600*67e74705SXin Li CGF.EmitRuntimeCall(createDispatchNextFunction(IVSize, IVSigned), Args);
2601*67e74705SXin Li return CGF.EmitScalarConversion(
2602*67e74705SXin Li Call, CGF.getContext().getIntTypeForBitwidth(32, /* Signed */ true),
2603*67e74705SXin Li CGF.getContext().BoolTy, Loc);
2604*67e74705SXin Li }
2605*67e74705SXin Li
emitNumThreadsClause(CodeGenFunction & CGF,llvm::Value * NumThreads,SourceLocation Loc)2606*67e74705SXin Li void CGOpenMPRuntime::emitNumThreadsClause(CodeGenFunction &CGF,
2607*67e74705SXin Li llvm::Value *NumThreads,
2608*67e74705SXin Li SourceLocation Loc) {
2609*67e74705SXin Li if (!CGF.HaveInsertPoint())
2610*67e74705SXin Li return;
2611*67e74705SXin Li // Build call __kmpc_push_num_threads(&loc, global_tid, num_threads)
2612*67e74705SXin Li llvm::Value *Args[] = {
2613*67e74705SXin Li emitUpdateLocation(CGF, Loc), getThreadID(CGF, Loc),
2614*67e74705SXin Li CGF.Builder.CreateIntCast(NumThreads, CGF.Int32Ty, /*isSigned*/ true)};
2615*67e74705SXin Li CGF.EmitRuntimeCall(createRuntimeFunction(OMPRTL__kmpc_push_num_threads),
2616*67e74705SXin Li Args);
2617*67e74705SXin Li }
2618*67e74705SXin Li
emitProcBindClause(CodeGenFunction & CGF,OpenMPProcBindClauseKind ProcBind,SourceLocation Loc)2619*67e74705SXin Li void CGOpenMPRuntime::emitProcBindClause(CodeGenFunction &CGF,
2620*67e74705SXin Li OpenMPProcBindClauseKind ProcBind,
2621*67e74705SXin Li SourceLocation Loc) {
2622*67e74705SXin Li if (!CGF.HaveInsertPoint())
2623*67e74705SXin Li return;
2624*67e74705SXin Li // Constants for proc bind value accepted by the runtime.
2625*67e74705SXin Li enum ProcBindTy {
2626*67e74705SXin Li ProcBindFalse = 0,
2627*67e74705SXin Li ProcBindTrue,
2628*67e74705SXin Li ProcBindMaster,
2629*67e74705SXin Li ProcBindClose,
2630*67e74705SXin Li ProcBindSpread,
2631*67e74705SXin Li ProcBindIntel,
2632*67e74705SXin Li ProcBindDefault
2633*67e74705SXin Li } RuntimeProcBind;
2634*67e74705SXin Li switch (ProcBind) {
2635*67e74705SXin Li case OMPC_PROC_BIND_master:
2636*67e74705SXin Li RuntimeProcBind = ProcBindMaster;
2637*67e74705SXin Li break;
2638*67e74705SXin Li case OMPC_PROC_BIND_close:
2639*67e74705SXin Li RuntimeProcBind = ProcBindClose;
2640*67e74705SXin Li break;
2641*67e74705SXin Li case OMPC_PROC_BIND_spread:
2642*67e74705SXin Li RuntimeProcBind = ProcBindSpread;
2643*67e74705SXin Li break;
2644*67e74705SXin Li case OMPC_PROC_BIND_unknown:
2645*67e74705SXin Li llvm_unreachable("Unsupported proc_bind value.");
2646*67e74705SXin Li }
2647*67e74705SXin Li // Build call __kmpc_push_proc_bind(&loc, global_tid, proc_bind)
2648*67e74705SXin Li llvm::Value *Args[] = {
2649*67e74705SXin Li emitUpdateLocation(CGF, Loc), getThreadID(CGF, Loc),
2650*67e74705SXin Li llvm::ConstantInt::get(CGM.IntTy, RuntimeProcBind, /*isSigned=*/true)};
2651*67e74705SXin Li CGF.EmitRuntimeCall(createRuntimeFunction(OMPRTL__kmpc_push_proc_bind), Args);
2652*67e74705SXin Li }
2653*67e74705SXin Li
emitFlush(CodeGenFunction & CGF,ArrayRef<const Expr * >,SourceLocation Loc)2654*67e74705SXin Li void CGOpenMPRuntime::emitFlush(CodeGenFunction &CGF, ArrayRef<const Expr *>,
2655*67e74705SXin Li SourceLocation Loc) {
2656*67e74705SXin Li if (!CGF.HaveInsertPoint())
2657*67e74705SXin Li return;
2658*67e74705SXin Li // Build call void __kmpc_flush(ident_t *loc)
2659*67e74705SXin Li CGF.EmitRuntimeCall(createRuntimeFunction(OMPRTL__kmpc_flush),
2660*67e74705SXin Li emitUpdateLocation(CGF, Loc));
2661*67e74705SXin Li }
2662*67e74705SXin Li
2663*67e74705SXin Li namespace {
2664*67e74705SXin Li /// \brief Indexes of fields for type kmp_task_t.
2665*67e74705SXin Li enum KmpTaskTFields {
2666*67e74705SXin Li /// \brief List of shared variables.
2667*67e74705SXin Li KmpTaskTShareds,
2668*67e74705SXin Li /// \brief Task routine.
2669*67e74705SXin Li KmpTaskTRoutine,
2670*67e74705SXin Li /// \brief Partition id for the untied tasks.
2671*67e74705SXin Li KmpTaskTPartId,
2672*67e74705SXin Li /// Function with call of destructors for private variables.
2673*67e74705SXin Li Data1,
2674*67e74705SXin Li /// Task priority.
2675*67e74705SXin Li Data2,
2676*67e74705SXin Li /// (Taskloops only) Lower bound.
2677*67e74705SXin Li KmpTaskTLowerBound,
2678*67e74705SXin Li /// (Taskloops only) Upper bound.
2679*67e74705SXin Li KmpTaskTUpperBound,
2680*67e74705SXin Li /// (Taskloops only) Stride.
2681*67e74705SXin Li KmpTaskTStride,
2682*67e74705SXin Li /// (Taskloops only) Is last iteration flag.
2683*67e74705SXin Li KmpTaskTLastIter,
2684*67e74705SXin Li };
2685*67e74705SXin Li } // anonymous namespace
2686*67e74705SXin Li
empty() const2687*67e74705SXin Li bool CGOpenMPRuntime::OffloadEntriesInfoManagerTy::empty() const {
2688*67e74705SXin Li // FIXME: Add other entries type when they become supported.
2689*67e74705SXin Li return OffloadEntriesTargetRegion.empty();
2690*67e74705SXin Li }
2691*67e74705SXin Li
2692*67e74705SXin Li /// \brief Initialize target region entry.
2693*67e74705SXin Li void CGOpenMPRuntime::OffloadEntriesInfoManagerTy::
initializeTargetRegionEntryInfo(unsigned DeviceID,unsigned FileID,StringRef ParentName,unsigned LineNum,unsigned Order)2694*67e74705SXin Li initializeTargetRegionEntryInfo(unsigned DeviceID, unsigned FileID,
2695*67e74705SXin Li StringRef ParentName, unsigned LineNum,
2696*67e74705SXin Li unsigned Order) {
2697*67e74705SXin Li assert(CGM.getLangOpts().OpenMPIsDevice && "Initialization of entries is "
2698*67e74705SXin Li "only required for the device "
2699*67e74705SXin Li "code generation.");
2700*67e74705SXin Li OffloadEntriesTargetRegion[DeviceID][FileID][ParentName][LineNum] =
2701*67e74705SXin Li OffloadEntryInfoTargetRegion(Order, /*Addr=*/nullptr, /*ID=*/nullptr);
2702*67e74705SXin Li ++OffloadingEntriesNum;
2703*67e74705SXin Li }
2704*67e74705SXin Li
2705*67e74705SXin Li void CGOpenMPRuntime::OffloadEntriesInfoManagerTy::
registerTargetRegionEntryInfo(unsigned DeviceID,unsigned FileID,StringRef ParentName,unsigned LineNum,llvm::Constant * Addr,llvm::Constant * ID)2706*67e74705SXin Li registerTargetRegionEntryInfo(unsigned DeviceID, unsigned FileID,
2707*67e74705SXin Li StringRef ParentName, unsigned LineNum,
2708*67e74705SXin Li llvm::Constant *Addr, llvm::Constant *ID) {
2709*67e74705SXin Li // If we are emitting code for a target, the entry is already initialized,
2710*67e74705SXin Li // only has to be registered.
2711*67e74705SXin Li if (CGM.getLangOpts().OpenMPIsDevice) {
2712*67e74705SXin Li assert(hasTargetRegionEntryInfo(DeviceID, FileID, ParentName, LineNum) &&
2713*67e74705SXin Li "Entry must exist.");
2714*67e74705SXin Li auto &Entry =
2715*67e74705SXin Li OffloadEntriesTargetRegion[DeviceID][FileID][ParentName][LineNum];
2716*67e74705SXin Li assert(Entry.isValid() && "Entry not initialized!");
2717*67e74705SXin Li Entry.setAddress(Addr);
2718*67e74705SXin Li Entry.setID(ID);
2719*67e74705SXin Li return;
2720*67e74705SXin Li } else {
2721*67e74705SXin Li OffloadEntryInfoTargetRegion Entry(OffloadingEntriesNum++, Addr, ID);
2722*67e74705SXin Li OffloadEntriesTargetRegion[DeviceID][FileID][ParentName][LineNum] = Entry;
2723*67e74705SXin Li }
2724*67e74705SXin Li }
2725*67e74705SXin Li
hasTargetRegionEntryInfo(unsigned DeviceID,unsigned FileID,StringRef ParentName,unsigned LineNum) const2726*67e74705SXin Li bool CGOpenMPRuntime::OffloadEntriesInfoManagerTy::hasTargetRegionEntryInfo(
2727*67e74705SXin Li unsigned DeviceID, unsigned FileID, StringRef ParentName,
2728*67e74705SXin Li unsigned LineNum) const {
2729*67e74705SXin Li auto PerDevice = OffloadEntriesTargetRegion.find(DeviceID);
2730*67e74705SXin Li if (PerDevice == OffloadEntriesTargetRegion.end())
2731*67e74705SXin Li return false;
2732*67e74705SXin Li auto PerFile = PerDevice->second.find(FileID);
2733*67e74705SXin Li if (PerFile == PerDevice->second.end())
2734*67e74705SXin Li return false;
2735*67e74705SXin Li auto PerParentName = PerFile->second.find(ParentName);
2736*67e74705SXin Li if (PerParentName == PerFile->second.end())
2737*67e74705SXin Li return false;
2738*67e74705SXin Li auto PerLine = PerParentName->second.find(LineNum);
2739*67e74705SXin Li if (PerLine == PerParentName->second.end())
2740*67e74705SXin Li return false;
2741*67e74705SXin Li // Fail if this entry is already registered.
2742*67e74705SXin Li if (PerLine->second.getAddress() || PerLine->second.getID())
2743*67e74705SXin Li return false;
2744*67e74705SXin Li return true;
2745*67e74705SXin Li }
2746*67e74705SXin Li
actOnTargetRegionEntriesInfo(const OffloadTargetRegionEntryInfoActTy & Action)2747*67e74705SXin Li void CGOpenMPRuntime::OffloadEntriesInfoManagerTy::actOnTargetRegionEntriesInfo(
2748*67e74705SXin Li const OffloadTargetRegionEntryInfoActTy &Action) {
2749*67e74705SXin Li // Scan all target region entries and perform the provided action.
2750*67e74705SXin Li for (auto &D : OffloadEntriesTargetRegion)
2751*67e74705SXin Li for (auto &F : D.second)
2752*67e74705SXin Li for (auto &P : F.second)
2753*67e74705SXin Li for (auto &L : P.second)
2754*67e74705SXin Li Action(D.first, F.first, P.first(), L.first, L.second);
2755*67e74705SXin Li }
2756*67e74705SXin Li
2757*67e74705SXin Li /// \brief Create a Ctor/Dtor-like function whose body is emitted through
2758*67e74705SXin Li /// \a Codegen. This is used to emit the two functions that register and
2759*67e74705SXin Li /// unregister the descriptor of the current compilation unit.
2760*67e74705SXin Li static llvm::Function *
createOffloadingBinaryDescriptorFunction(CodeGenModule & CGM,StringRef Name,const RegionCodeGenTy & Codegen)2761*67e74705SXin Li createOffloadingBinaryDescriptorFunction(CodeGenModule &CGM, StringRef Name,
2762*67e74705SXin Li const RegionCodeGenTy &Codegen) {
2763*67e74705SXin Li auto &C = CGM.getContext();
2764*67e74705SXin Li FunctionArgList Args;
2765*67e74705SXin Li ImplicitParamDecl DummyPtr(C, /*DC=*/nullptr, SourceLocation(),
2766*67e74705SXin Li /*Id=*/nullptr, C.VoidPtrTy);
2767*67e74705SXin Li Args.push_back(&DummyPtr);
2768*67e74705SXin Li
2769*67e74705SXin Li CodeGenFunction CGF(CGM);
2770*67e74705SXin Li GlobalDecl();
2771*67e74705SXin Li auto &FI = CGM.getTypes().arrangeBuiltinFunctionDeclaration(C.VoidTy, Args);
2772*67e74705SXin Li auto FTy = CGM.getTypes().GetFunctionType(FI);
2773*67e74705SXin Li auto *Fn =
2774*67e74705SXin Li CGM.CreateGlobalInitOrDestructFunction(FTy, Name, FI, SourceLocation());
2775*67e74705SXin Li CGF.StartFunction(GlobalDecl(), C.VoidTy, Fn, FI, Args, SourceLocation());
2776*67e74705SXin Li Codegen(CGF);
2777*67e74705SXin Li CGF.FinishFunction();
2778*67e74705SXin Li return Fn;
2779*67e74705SXin Li }
2780*67e74705SXin Li
2781*67e74705SXin Li llvm::Function *
createOffloadingBinaryDescriptorRegistration()2782*67e74705SXin Li CGOpenMPRuntime::createOffloadingBinaryDescriptorRegistration() {
2783*67e74705SXin Li
2784*67e74705SXin Li // If we don't have entries or if we are emitting code for the device, we
2785*67e74705SXin Li // don't need to do anything.
2786*67e74705SXin Li if (CGM.getLangOpts().OpenMPIsDevice || OffloadEntriesInfoManager.empty())
2787*67e74705SXin Li return nullptr;
2788*67e74705SXin Li
2789*67e74705SXin Li auto &M = CGM.getModule();
2790*67e74705SXin Li auto &C = CGM.getContext();
2791*67e74705SXin Li
2792*67e74705SXin Li // Get list of devices we care about
2793*67e74705SXin Li auto &Devices = CGM.getLangOpts().OMPTargetTriples;
2794*67e74705SXin Li
2795*67e74705SXin Li // We should be creating an offloading descriptor only if there are devices
2796*67e74705SXin Li // specified.
2797*67e74705SXin Li assert(!Devices.empty() && "No OpenMP offloading devices??");
2798*67e74705SXin Li
2799*67e74705SXin Li // Create the external variables that will point to the begin and end of the
2800*67e74705SXin Li // host entries section. These will be defined by the linker.
2801*67e74705SXin Li auto *OffloadEntryTy =
2802*67e74705SXin Li CGM.getTypes().ConvertTypeForMem(getTgtOffloadEntryQTy());
2803*67e74705SXin Li llvm::GlobalVariable *HostEntriesBegin = new llvm::GlobalVariable(
2804*67e74705SXin Li M, OffloadEntryTy, /*isConstant=*/true,
2805*67e74705SXin Li llvm::GlobalValue::ExternalLinkage, /*Initializer=*/nullptr,
2806*67e74705SXin Li ".omp_offloading.entries_begin");
2807*67e74705SXin Li llvm::GlobalVariable *HostEntriesEnd = new llvm::GlobalVariable(
2808*67e74705SXin Li M, OffloadEntryTy, /*isConstant=*/true,
2809*67e74705SXin Li llvm::GlobalValue::ExternalLinkage, /*Initializer=*/nullptr,
2810*67e74705SXin Li ".omp_offloading.entries_end");
2811*67e74705SXin Li
2812*67e74705SXin Li // Create all device images
2813*67e74705SXin Li llvm::SmallVector<llvm::Constant *, 4> DeviceImagesEntires;
2814*67e74705SXin Li auto *DeviceImageTy = cast<llvm::StructType>(
2815*67e74705SXin Li CGM.getTypes().ConvertTypeForMem(getTgtDeviceImageQTy()));
2816*67e74705SXin Li
2817*67e74705SXin Li for (unsigned i = 0; i < Devices.size(); ++i) {
2818*67e74705SXin Li StringRef T = Devices[i].getTriple();
2819*67e74705SXin Li auto *ImgBegin = new llvm::GlobalVariable(
2820*67e74705SXin Li M, CGM.Int8Ty, /*isConstant=*/true, llvm::GlobalValue::ExternalLinkage,
2821*67e74705SXin Li /*Initializer=*/nullptr,
2822*67e74705SXin Li Twine(".omp_offloading.img_start.") + Twine(T));
2823*67e74705SXin Li auto *ImgEnd = new llvm::GlobalVariable(
2824*67e74705SXin Li M, CGM.Int8Ty, /*isConstant=*/true, llvm::GlobalValue::ExternalLinkage,
2825*67e74705SXin Li /*Initializer=*/nullptr, Twine(".omp_offloading.img_end.") + Twine(T));
2826*67e74705SXin Li
2827*67e74705SXin Li llvm::Constant *Dev =
2828*67e74705SXin Li llvm::ConstantStruct::get(DeviceImageTy, ImgBegin, ImgEnd,
2829*67e74705SXin Li HostEntriesBegin, HostEntriesEnd, nullptr);
2830*67e74705SXin Li DeviceImagesEntires.push_back(Dev);
2831*67e74705SXin Li }
2832*67e74705SXin Li
2833*67e74705SXin Li // Create device images global array.
2834*67e74705SXin Li llvm::ArrayType *DeviceImagesInitTy =
2835*67e74705SXin Li llvm::ArrayType::get(DeviceImageTy, DeviceImagesEntires.size());
2836*67e74705SXin Li llvm::Constant *DeviceImagesInit =
2837*67e74705SXin Li llvm::ConstantArray::get(DeviceImagesInitTy, DeviceImagesEntires);
2838*67e74705SXin Li
2839*67e74705SXin Li llvm::GlobalVariable *DeviceImages = new llvm::GlobalVariable(
2840*67e74705SXin Li M, DeviceImagesInitTy, /*isConstant=*/true,
2841*67e74705SXin Li llvm::GlobalValue::InternalLinkage, DeviceImagesInit,
2842*67e74705SXin Li ".omp_offloading.device_images");
2843*67e74705SXin Li DeviceImages->setUnnamedAddr(llvm::GlobalValue::UnnamedAddr::Global);
2844*67e74705SXin Li
2845*67e74705SXin Li // This is a Zero array to be used in the creation of the constant expressions
2846*67e74705SXin Li llvm::Constant *Index[] = {llvm::Constant::getNullValue(CGM.Int32Ty),
2847*67e74705SXin Li llvm::Constant::getNullValue(CGM.Int32Ty)};
2848*67e74705SXin Li
2849*67e74705SXin Li // Create the target region descriptor.
2850*67e74705SXin Li auto *BinaryDescriptorTy = cast<llvm::StructType>(
2851*67e74705SXin Li CGM.getTypes().ConvertTypeForMem(getTgtBinaryDescriptorQTy()));
2852*67e74705SXin Li llvm::Constant *TargetRegionsDescriptorInit = llvm::ConstantStruct::get(
2853*67e74705SXin Li BinaryDescriptorTy, llvm::ConstantInt::get(CGM.Int32Ty, Devices.size()),
2854*67e74705SXin Li llvm::ConstantExpr::getGetElementPtr(DeviceImagesInitTy, DeviceImages,
2855*67e74705SXin Li Index),
2856*67e74705SXin Li HostEntriesBegin, HostEntriesEnd, nullptr);
2857*67e74705SXin Li
2858*67e74705SXin Li auto *Desc = new llvm::GlobalVariable(
2859*67e74705SXin Li M, BinaryDescriptorTy, /*isConstant=*/true,
2860*67e74705SXin Li llvm::GlobalValue::InternalLinkage, TargetRegionsDescriptorInit,
2861*67e74705SXin Li ".omp_offloading.descriptor");
2862*67e74705SXin Li
2863*67e74705SXin Li // Emit code to register or unregister the descriptor at execution
2864*67e74705SXin Li // startup or closing, respectively.
2865*67e74705SXin Li
2866*67e74705SXin Li // Create a variable to drive the registration and unregistration of the
2867*67e74705SXin Li // descriptor, so we can reuse the logic that emits Ctors and Dtors.
2868*67e74705SXin Li auto *IdentInfo = &C.Idents.get(".omp_offloading.reg_unreg_var");
2869*67e74705SXin Li ImplicitParamDecl RegUnregVar(C, C.getTranslationUnitDecl(), SourceLocation(),
2870*67e74705SXin Li IdentInfo, C.CharTy);
2871*67e74705SXin Li
2872*67e74705SXin Li auto *UnRegFn = createOffloadingBinaryDescriptorFunction(
2873*67e74705SXin Li CGM, ".omp_offloading.descriptor_unreg",
2874*67e74705SXin Li [&](CodeGenFunction &CGF, PrePostActionTy &) {
2875*67e74705SXin Li CGF.EmitCallOrInvoke(createRuntimeFunction(OMPRTL__tgt_unregister_lib),
2876*67e74705SXin Li Desc);
2877*67e74705SXin Li });
2878*67e74705SXin Li auto *RegFn = createOffloadingBinaryDescriptorFunction(
2879*67e74705SXin Li CGM, ".omp_offloading.descriptor_reg",
2880*67e74705SXin Li [&](CodeGenFunction &CGF, PrePostActionTy &) {
2881*67e74705SXin Li CGF.EmitCallOrInvoke(createRuntimeFunction(OMPRTL__tgt_register_lib),
2882*67e74705SXin Li Desc);
2883*67e74705SXin Li CGM.getCXXABI().registerGlobalDtor(CGF, RegUnregVar, UnRegFn, Desc);
2884*67e74705SXin Li });
2885*67e74705SXin Li return RegFn;
2886*67e74705SXin Li }
2887*67e74705SXin Li
createOffloadEntry(llvm::Constant * ID,llvm::Constant * Addr,uint64_t Size)2888*67e74705SXin Li void CGOpenMPRuntime::createOffloadEntry(llvm::Constant *ID,
2889*67e74705SXin Li llvm::Constant *Addr, uint64_t Size) {
2890*67e74705SXin Li StringRef Name = Addr->getName();
2891*67e74705SXin Li auto *TgtOffloadEntryType = cast<llvm::StructType>(
2892*67e74705SXin Li CGM.getTypes().ConvertTypeForMem(getTgtOffloadEntryQTy()));
2893*67e74705SXin Li llvm::LLVMContext &C = CGM.getModule().getContext();
2894*67e74705SXin Li llvm::Module &M = CGM.getModule();
2895*67e74705SXin Li
2896*67e74705SXin Li // Make sure the address has the right type.
2897*67e74705SXin Li llvm::Constant *AddrPtr = llvm::ConstantExpr::getBitCast(ID, CGM.VoidPtrTy);
2898*67e74705SXin Li
2899*67e74705SXin Li // Create constant string with the name.
2900*67e74705SXin Li llvm::Constant *StrPtrInit = llvm::ConstantDataArray::getString(C, Name);
2901*67e74705SXin Li
2902*67e74705SXin Li llvm::GlobalVariable *Str =
2903*67e74705SXin Li new llvm::GlobalVariable(M, StrPtrInit->getType(), /*isConstant=*/true,
2904*67e74705SXin Li llvm::GlobalValue::InternalLinkage, StrPtrInit,
2905*67e74705SXin Li ".omp_offloading.entry_name");
2906*67e74705SXin Li Str->setUnnamedAddr(llvm::GlobalValue::UnnamedAddr::Global);
2907*67e74705SXin Li llvm::Constant *StrPtr = llvm::ConstantExpr::getBitCast(Str, CGM.Int8PtrTy);
2908*67e74705SXin Li
2909*67e74705SXin Li // Create the entry struct.
2910*67e74705SXin Li llvm::Constant *EntryInit = llvm::ConstantStruct::get(
2911*67e74705SXin Li TgtOffloadEntryType, AddrPtr, StrPtr,
2912*67e74705SXin Li llvm::ConstantInt::get(CGM.SizeTy, Size), nullptr);
2913*67e74705SXin Li llvm::GlobalVariable *Entry = new llvm::GlobalVariable(
2914*67e74705SXin Li M, TgtOffloadEntryType, true, llvm::GlobalValue::ExternalLinkage,
2915*67e74705SXin Li EntryInit, ".omp_offloading.entry");
2916*67e74705SXin Li
2917*67e74705SXin Li // The entry has to be created in the section the linker expects it to be.
2918*67e74705SXin Li Entry->setSection(".omp_offloading.entries");
2919*67e74705SXin Li // We can't have any padding between symbols, so we need to have 1-byte
2920*67e74705SXin Li // alignment.
2921*67e74705SXin Li Entry->setAlignment(1);
2922*67e74705SXin Li }
2923*67e74705SXin Li
createOffloadEntriesAndInfoMetadata()2924*67e74705SXin Li void CGOpenMPRuntime::createOffloadEntriesAndInfoMetadata() {
2925*67e74705SXin Li // Emit the offloading entries and metadata so that the device codegen side
2926*67e74705SXin Li // can
2927*67e74705SXin Li // easily figure out what to emit. The produced metadata looks like this:
2928*67e74705SXin Li //
2929*67e74705SXin Li // !omp_offload.info = !{!1, ...}
2930*67e74705SXin Li //
2931*67e74705SXin Li // Right now we only generate metadata for function that contain target
2932*67e74705SXin Li // regions.
2933*67e74705SXin Li
2934*67e74705SXin Li // If we do not have entries, we dont need to do anything.
2935*67e74705SXin Li if (OffloadEntriesInfoManager.empty())
2936*67e74705SXin Li return;
2937*67e74705SXin Li
2938*67e74705SXin Li llvm::Module &M = CGM.getModule();
2939*67e74705SXin Li llvm::LLVMContext &C = M.getContext();
2940*67e74705SXin Li SmallVector<OffloadEntriesInfoManagerTy::OffloadEntryInfo *, 16>
2941*67e74705SXin Li OrderedEntries(OffloadEntriesInfoManager.size());
2942*67e74705SXin Li
2943*67e74705SXin Li // Create the offloading info metadata node.
2944*67e74705SXin Li llvm::NamedMDNode *MD = M.getOrInsertNamedMetadata("omp_offload.info");
2945*67e74705SXin Li
2946*67e74705SXin Li // Auxiliar methods to create metadata values and strings.
2947*67e74705SXin Li auto getMDInt = [&](unsigned v) {
2948*67e74705SXin Li return llvm::ConstantAsMetadata::get(
2949*67e74705SXin Li llvm::ConstantInt::get(llvm::Type::getInt32Ty(C), v));
2950*67e74705SXin Li };
2951*67e74705SXin Li
2952*67e74705SXin Li auto getMDString = [&](StringRef v) { return llvm::MDString::get(C, v); };
2953*67e74705SXin Li
2954*67e74705SXin Li // Create function that emits metadata for each target region entry;
2955*67e74705SXin Li auto &&TargetRegionMetadataEmitter = [&](
2956*67e74705SXin Li unsigned DeviceID, unsigned FileID, StringRef ParentName, unsigned Line,
2957*67e74705SXin Li OffloadEntriesInfoManagerTy::OffloadEntryInfoTargetRegion &E) {
2958*67e74705SXin Li llvm::SmallVector<llvm::Metadata *, 32> Ops;
2959*67e74705SXin Li // Generate metadata for target regions. Each entry of this metadata
2960*67e74705SXin Li // contains:
2961*67e74705SXin Li // - Entry 0 -> Kind of this type of metadata (0).
2962*67e74705SXin Li // - Entry 1 -> Device ID of the file where the entry was identified.
2963*67e74705SXin Li // - Entry 2 -> File ID of the file where the entry was identified.
2964*67e74705SXin Li // - Entry 3 -> Mangled name of the function where the entry was identified.
2965*67e74705SXin Li // - Entry 4 -> Line in the file where the entry was identified.
2966*67e74705SXin Li // - Entry 5 -> Order the entry was created.
2967*67e74705SXin Li // The first element of the metadata node is the kind.
2968*67e74705SXin Li Ops.push_back(getMDInt(E.getKind()));
2969*67e74705SXin Li Ops.push_back(getMDInt(DeviceID));
2970*67e74705SXin Li Ops.push_back(getMDInt(FileID));
2971*67e74705SXin Li Ops.push_back(getMDString(ParentName));
2972*67e74705SXin Li Ops.push_back(getMDInt(Line));
2973*67e74705SXin Li Ops.push_back(getMDInt(E.getOrder()));
2974*67e74705SXin Li
2975*67e74705SXin Li // Save this entry in the right position of the ordered entries array.
2976*67e74705SXin Li OrderedEntries[E.getOrder()] = &E;
2977*67e74705SXin Li
2978*67e74705SXin Li // Add metadata to the named metadata node.
2979*67e74705SXin Li MD->addOperand(llvm::MDNode::get(C, Ops));
2980*67e74705SXin Li };
2981*67e74705SXin Li
2982*67e74705SXin Li OffloadEntriesInfoManager.actOnTargetRegionEntriesInfo(
2983*67e74705SXin Li TargetRegionMetadataEmitter);
2984*67e74705SXin Li
2985*67e74705SXin Li for (auto *E : OrderedEntries) {
2986*67e74705SXin Li assert(E && "All ordered entries must exist!");
2987*67e74705SXin Li if (auto *CE =
2988*67e74705SXin Li dyn_cast<OffloadEntriesInfoManagerTy::OffloadEntryInfoTargetRegion>(
2989*67e74705SXin Li E)) {
2990*67e74705SXin Li assert(CE->getID() && CE->getAddress() &&
2991*67e74705SXin Li "Entry ID and Addr are invalid!");
2992*67e74705SXin Li createOffloadEntry(CE->getID(), CE->getAddress(), /*Size=*/0);
2993*67e74705SXin Li } else
2994*67e74705SXin Li llvm_unreachable("Unsupported entry kind.");
2995*67e74705SXin Li }
2996*67e74705SXin Li }
2997*67e74705SXin Li
2998*67e74705SXin Li /// \brief Loads all the offload entries information from the host IR
2999*67e74705SXin Li /// metadata.
loadOffloadInfoMetadata()3000*67e74705SXin Li void CGOpenMPRuntime::loadOffloadInfoMetadata() {
3001*67e74705SXin Li // If we are in target mode, load the metadata from the host IR. This code has
3002*67e74705SXin Li // to match the metadaata creation in createOffloadEntriesAndInfoMetadata().
3003*67e74705SXin Li
3004*67e74705SXin Li if (!CGM.getLangOpts().OpenMPIsDevice)
3005*67e74705SXin Li return;
3006*67e74705SXin Li
3007*67e74705SXin Li if (CGM.getLangOpts().OMPHostIRFile.empty())
3008*67e74705SXin Li return;
3009*67e74705SXin Li
3010*67e74705SXin Li auto Buf = llvm::MemoryBuffer::getFile(CGM.getLangOpts().OMPHostIRFile);
3011*67e74705SXin Li if (Buf.getError())
3012*67e74705SXin Li return;
3013*67e74705SXin Li
3014*67e74705SXin Li llvm::LLVMContext C;
3015*67e74705SXin Li auto ME = llvm::parseBitcodeFile(Buf.get()->getMemBufferRef(), C);
3016*67e74705SXin Li
3017*67e74705SXin Li if (ME.getError())
3018*67e74705SXin Li return;
3019*67e74705SXin Li
3020*67e74705SXin Li llvm::NamedMDNode *MD = ME.get()->getNamedMetadata("omp_offload.info");
3021*67e74705SXin Li if (!MD)
3022*67e74705SXin Li return;
3023*67e74705SXin Li
3024*67e74705SXin Li for (auto I : MD->operands()) {
3025*67e74705SXin Li llvm::MDNode *MN = cast<llvm::MDNode>(I);
3026*67e74705SXin Li
3027*67e74705SXin Li auto getMDInt = [&](unsigned Idx) {
3028*67e74705SXin Li llvm::ConstantAsMetadata *V =
3029*67e74705SXin Li cast<llvm::ConstantAsMetadata>(MN->getOperand(Idx));
3030*67e74705SXin Li return cast<llvm::ConstantInt>(V->getValue())->getZExtValue();
3031*67e74705SXin Li };
3032*67e74705SXin Li
3033*67e74705SXin Li auto getMDString = [&](unsigned Idx) {
3034*67e74705SXin Li llvm::MDString *V = cast<llvm::MDString>(MN->getOperand(Idx));
3035*67e74705SXin Li return V->getString();
3036*67e74705SXin Li };
3037*67e74705SXin Li
3038*67e74705SXin Li switch (getMDInt(0)) {
3039*67e74705SXin Li default:
3040*67e74705SXin Li llvm_unreachable("Unexpected metadata!");
3041*67e74705SXin Li break;
3042*67e74705SXin Li case OffloadEntriesInfoManagerTy::OffloadEntryInfo::
3043*67e74705SXin Li OFFLOAD_ENTRY_INFO_TARGET_REGION:
3044*67e74705SXin Li OffloadEntriesInfoManager.initializeTargetRegionEntryInfo(
3045*67e74705SXin Li /*DeviceID=*/getMDInt(1), /*FileID=*/getMDInt(2),
3046*67e74705SXin Li /*ParentName=*/getMDString(3), /*Line=*/getMDInt(4),
3047*67e74705SXin Li /*Order=*/getMDInt(5));
3048*67e74705SXin Li break;
3049*67e74705SXin Li }
3050*67e74705SXin Li }
3051*67e74705SXin Li }
3052*67e74705SXin Li
emitKmpRoutineEntryT(QualType KmpInt32Ty)3053*67e74705SXin Li void CGOpenMPRuntime::emitKmpRoutineEntryT(QualType KmpInt32Ty) {
3054*67e74705SXin Li if (!KmpRoutineEntryPtrTy) {
3055*67e74705SXin Li // Build typedef kmp_int32 (* kmp_routine_entry_t)(kmp_int32, void *); type.
3056*67e74705SXin Li auto &C = CGM.getContext();
3057*67e74705SXin Li QualType KmpRoutineEntryTyArgs[] = {KmpInt32Ty, C.VoidPtrTy};
3058*67e74705SXin Li FunctionProtoType::ExtProtoInfo EPI;
3059*67e74705SXin Li KmpRoutineEntryPtrQTy = C.getPointerType(
3060*67e74705SXin Li C.getFunctionType(KmpInt32Ty, KmpRoutineEntryTyArgs, EPI));
3061*67e74705SXin Li KmpRoutineEntryPtrTy = CGM.getTypes().ConvertType(KmpRoutineEntryPtrQTy);
3062*67e74705SXin Li }
3063*67e74705SXin Li }
3064*67e74705SXin Li
addFieldToRecordDecl(ASTContext & C,DeclContext * DC,QualType FieldTy)3065*67e74705SXin Li static FieldDecl *addFieldToRecordDecl(ASTContext &C, DeclContext *DC,
3066*67e74705SXin Li QualType FieldTy) {
3067*67e74705SXin Li auto *Field = FieldDecl::Create(
3068*67e74705SXin Li C, DC, SourceLocation(), SourceLocation(), /*Id=*/nullptr, FieldTy,
3069*67e74705SXin Li C.getTrivialTypeSourceInfo(FieldTy, SourceLocation()),
3070*67e74705SXin Li /*BW=*/nullptr, /*Mutable=*/false, /*InitStyle=*/ICIS_NoInit);
3071*67e74705SXin Li Field->setAccess(AS_public);
3072*67e74705SXin Li DC->addDecl(Field);
3073*67e74705SXin Li return Field;
3074*67e74705SXin Li }
3075*67e74705SXin Li
getTgtOffloadEntryQTy()3076*67e74705SXin Li QualType CGOpenMPRuntime::getTgtOffloadEntryQTy() {
3077*67e74705SXin Li
3078*67e74705SXin Li // Make sure the type of the entry is already created. This is the type we
3079*67e74705SXin Li // have to create:
3080*67e74705SXin Li // struct __tgt_offload_entry{
3081*67e74705SXin Li // void *addr; // Pointer to the offload entry info.
3082*67e74705SXin Li // // (function or global)
3083*67e74705SXin Li // char *name; // Name of the function or global.
3084*67e74705SXin Li // size_t size; // Size of the entry info (0 if it a function).
3085*67e74705SXin Li // };
3086*67e74705SXin Li if (TgtOffloadEntryQTy.isNull()) {
3087*67e74705SXin Li ASTContext &C = CGM.getContext();
3088*67e74705SXin Li auto *RD = C.buildImplicitRecord("__tgt_offload_entry");
3089*67e74705SXin Li RD->startDefinition();
3090*67e74705SXin Li addFieldToRecordDecl(C, RD, C.VoidPtrTy);
3091*67e74705SXin Li addFieldToRecordDecl(C, RD, C.getPointerType(C.CharTy));
3092*67e74705SXin Li addFieldToRecordDecl(C, RD, C.getSizeType());
3093*67e74705SXin Li RD->completeDefinition();
3094*67e74705SXin Li TgtOffloadEntryQTy = C.getRecordType(RD);
3095*67e74705SXin Li }
3096*67e74705SXin Li return TgtOffloadEntryQTy;
3097*67e74705SXin Li }
3098*67e74705SXin Li
getTgtDeviceImageQTy()3099*67e74705SXin Li QualType CGOpenMPRuntime::getTgtDeviceImageQTy() {
3100*67e74705SXin Li // These are the types we need to build:
3101*67e74705SXin Li // struct __tgt_device_image{
3102*67e74705SXin Li // void *ImageStart; // Pointer to the target code start.
3103*67e74705SXin Li // void *ImageEnd; // Pointer to the target code end.
3104*67e74705SXin Li // // We also add the host entries to the device image, as it may be useful
3105*67e74705SXin Li // // for the target runtime to have access to that information.
3106*67e74705SXin Li // __tgt_offload_entry *EntriesBegin; // Begin of the table with all
3107*67e74705SXin Li // // the entries.
3108*67e74705SXin Li // __tgt_offload_entry *EntriesEnd; // End of the table with all the
3109*67e74705SXin Li // // entries (non inclusive).
3110*67e74705SXin Li // };
3111*67e74705SXin Li if (TgtDeviceImageQTy.isNull()) {
3112*67e74705SXin Li ASTContext &C = CGM.getContext();
3113*67e74705SXin Li auto *RD = C.buildImplicitRecord("__tgt_device_image");
3114*67e74705SXin Li RD->startDefinition();
3115*67e74705SXin Li addFieldToRecordDecl(C, RD, C.VoidPtrTy);
3116*67e74705SXin Li addFieldToRecordDecl(C, RD, C.VoidPtrTy);
3117*67e74705SXin Li addFieldToRecordDecl(C, RD, C.getPointerType(getTgtOffloadEntryQTy()));
3118*67e74705SXin Li addFieldToRecordDecl(C, RD, C.getPointerType(getTgtOffloadEntryQTy()));
3119*67e74705SXin Li RD->completeDefinition();
3120*67e74705SXin Li TgtDeviceImageQTy = C.getRecordType(RD);
3121*67e74705SXin Li }
3122*67e74705SXin Li return TgtDeviceImageQTy;
3123*67e74705SXin Li }
3124*67e74705SXin Li
getTgtBinaryDescriptorQTy()3125*67e74705SXin Li QualType CGOpenMPRuntime::getTgtBinaryDescriptorQTy() {
3126*67e74705SXin Li // struct __tgt_bin_desc{
3127*67e74705SXin Li // int32_t NumDevices; // Number of devices supported.
3128*67e74705SXin Li // __tgt_device_image *DeviceImages; // Arrays of device images
3129*67e74705SXin Li // // (one per device).
3130*67e74705SXin Li // __tgt_offload_entry *EntriesBegin; // Begin of the table with all the
3131*67e74705SXin Li // // entries.
3132*67e74705SXin Li // __tgt_offload_entry *EntriesEnd; // End of the table with all the
3133*67e74705SXin Li // // entries (non inclusive).
3134*67e74705SXin Li // };
3135*67e74705SXin Li if (TgtBinaryDescriptorQTy.isNull()) {
3136*67e74705SXin Li ASTContext &C = CGM.getContext();
3137*67e74705SXin Li auto *RD = C.buildImplicitRecord("__tgt_bin_desc");
3138*67e74705SXin Li RD->startDefinition();
3139*67e74705SXin Li addFieldToRecordDecl(
3140*67e74705SXin Li C, RD, C.getIntTypeForBitwidth(/*DestWidth=*/32, /*Signed=*/true));
3141*67e74705SXin Li addFieldToRecordDecl(C, RD, C.getPointerType(getTgtDeviceImageQTy()));
3142*67e74705SXin Li addFieldToRecordDecl(C, RD, C.getPointerType(getTgtOffloadEntryQTy()));
3143*67e74705SXin Li addFieldToRecordDecl(C, RD, C.getPointerType(getTgtOffloadEntryQTy()));
3144*67e74705SXin Li RD->completeDefinition();
3145*67e74705SXin Li TgtBinaryDescriptorQTy = C.getRecordType(RD);
3146*67e74705SXin Li }
3147*67e74705SXin Li return TgtBinaryDescriptorQTy;
3148*67e74705SXin Li }
3149*67e74705SXin Li
3150*67e74705SXin Li namespace {
3151*67e74705SXin Li struct PrivateHelpersTy {
PrivateHelpersTy__anona664cb931111::PrivateHelpersTy3152*67e74705SXin Li PrivateHelpersTy(const VarDecl *Original, const VarDecl *PrivateCopy,
3153*67e74705SXin Li const VarDecl *PrivateElemInit)
3154*67e74705SXin Li : Original(Original), PrivateCopy(PrivateCopy),
3155*67e74705SXin Li PrivateElemInit(PrivateElemInit) {}
3156*67e74705SXin Li const VarDecl *Original;
3157*67e74705SXin Li const VarDecl *PrivateCopy;
3158*67e74705SXin Li const VarDecl *PrivateElemInit;
3159*67e74705SXin Li };
3160*67e74705SXin Li typedef std::pair<CharUnits /*Align*/, PrivateHelpersTy> PrivateDataTy;
3161*67e74705SXin Li } // anonymous namespace
3162*67e74705SXin Li
3163*67e74705SXin Li static RecordDecl *
createPrivatesRecordDecl(CodeGenModule & CGM,ArrayRef<PrivateDataTy> Privates)3164*67e74705SXin Li createPrivatesRecordDecl(CodeGenModule &CGM, ArrayRef<PrivateDataTy> Privates) {
3165*67e74705SXin Li if (!Privates.empty()) {
3166*67e74705SXin Li auto &C = CGM.getContext();
3167*67e74705SXin Li // Build struct .kmp_privates_t. {
3168*67e74705SXin Li // /* private vars */
3169*67e74705SXin Li // };
3170*67e74705SXin Li auto *RD = C.buildImplicitRecord(".kmp_privates.t");
3171*67e74705SXin Li RD->startDefinition();
3172*67e74705SXin Li for (auto &&Pair : Privates) {
3173*67e74705SXin Li auto *VD = Pair.second.Original;
3174*67e74705SXin Li auto Type = VD->getType();
3175*67e74705SXin Li Type = Type.getNonReferenceType();
3176*67e74705SXin Li auto *FD = addFieldToRecordDecl(C, RD, Type);
3177*67e74705SXin Li if (VD->hasAttrs()) {
3178*67e74705SXin Li for (specific_attr_iterator<AlignedAttr> I(VD->getAttrs().begin()),
3179*67e74705SXin Li E(VD->getAttrs().end());
3180*67e74705SXin Li I != E; ++I)
3181*67e74705SXin Li FD->addAttr(*I);
3182*67e74705SXin Li }
3183*67e74705SXin Li }
3184*67e74705SXin Li RD->completeDefinition();
3185*67e74705SXin Li return RD;
3186*67e74705SXin Li }
3187*67e74705SXin Li return nullptr;
3188*67e74705SXin Li }
3189*67e74705SXin Li
3190*67e74705SXin Li static RecordDecl *
createKmpTaskTRecordDecl(CodeGenModule & CGM,OpenMPDirectiveKind Kind,QualType KmpInt32Ty,QualType KmpRoutineEntryPointerQTy)3191*67e74705SXin Li createKmpTaskTRecordDecl(CodeGenModule &CGM, OpenMPDirectiveKind Kind,
3192*67e74705SXin Li QualType KmpInt32Ty,
3193*67e74705SXin Li QualType KmpRoutineEntryPointerQTy) {
3194*67e74705SXin Li auto &C = CGM.getContext();
3195*67e74705SXin Li // Build struct kmp_task_t {
3196*67e74705SXin Li // void * shareds;
3197*67e74705SXin Li // kmp_routine_entry_t routine;
3198*67e74705SXin Li // kmp_int32 part_id;
3199*67e74705SXin Li // kmp_cmplrdata_t data1;
3200*67e74705SXin Li // kmp_cmplrdata_t data2;
3201*67e74705SXin Li // For taskloops additional fields:
3202*67e74705SXin Li // kmp_uint64 lb;
3203*67e74705SXin Li // kmp_uint64 ub;
3204*67e74705SXin Li // kmp_int64 st;
3205*67e74705SXin Li // kmp_int32 liter;
3206*67e74705SXin Li // };
3207*67e74705SXin Li auto *UD = C.buildImplicitRecord("kmp_cmplrdata_t", TTK_Union);
3208*67e74705SXin Li UD->startDefinition();
3209*67e74705SXin Li addFieldToRecordDecl(C, UD, KmpInt32Ty);
3210*67e74705SXin Li addFieldToRecordDecl(C, UD, KmpRoutineEntryPointerQTy);
3211*67e74705SXin Li UD->completeDefinition();
3212*67e74705SXin Li QualType KmpCmplrdataTy = C.getRecordType(UD);
3213*67e74705SXin Li auto *RD = C.buildImplicitRecord("kmp_task_t");
3214*67e74705SXin Li RD->startDefinition();
3215*67e74705SXin Li addFieldToRecordDecl(C, RD, C.VoidPtrTy);
3216*67e74705SXin Li addFieldToRecordDecl(C, RD, KmpRoutineEntryPointerQTy);
3217*67e74705SXin Li addFieldToRecordDecl(C, RD, KmpInt32Ty);
3218*67e74705SXin Li addFieldToRecordDecl(C, RD, KmpCmplrdataTy);
3219*67e74705SXin Li addFieldToRecordDecl(C, RD, KmpCmplrdataTy);
3220*67e74705SXin Li if (isOpenMPTaskLoopDirective(Kind)) {
3221*67e74705SXin Li QualType KmpUInt64Ty =
3222*67e74705SXin Li CGM.getContext().getIntTypeForBitwidth(/*DestWidth=*/64, /*Signed=*/0);
3223*67e74705SXin Li QualType KmpInt64Ty =
3224*67e74705SXin Li CGM.getContext().getIntTypeForBitwidth(/*DestWidth=*/64, /*Signed=*/1);
3225*67e74705SXin Li addFieldToRecordDecl(C, RD, KmpUInt64Ty);
3226*67e74705SXin Li addFieldToRecordDecl(C, RD, KmpUInt64Ty);
3227*67e74705SXin Li addFieldToRecordDecl(C, RD, KmpInt64Ty);
3228*67e74705SXin Li addFieldToRecordDecl(C, RD, KmpInt32Ty);
3229*67e74705SXin Li }
3230*67e74705SXin Li RD->completeDefinition();
3231*67e74705SXin Li return RD;
3232*67e74705SXin Li }
3233*67e74705SXin Li
3234*67e74705SXin Li static RecordDecl *
createKmpTaskTWithPrivatesRecordDecl(CodeGenModule & CGM,QualType KmpTaskTQTy,ArrayRef<PrivateDataTy> Privates)3235*67e74705SXin Li createKmpTaskTWithPrivatesRecordDecl(CodeGenModule &CGM, QualType KmpTaskTQTy,
3236*67e74705SXin Li ArrayRef<PrivateDataTy> Privates) {
3237*67e74705SXin Li auto &C = CGM.getContext();
3238*67e74705SXin Li // Build struct kmp_task_t_with_privates {
3239*67e74705SXin Li // kmp_task_t task_data;
3240*67e74705SXin Li // .kmp_privates_t. privates;
3241*67e74705SXin Li // };
3242*67e74705SXin Li auto *RD = C.buildImplicitRecord("kmp_task_t_with_privates");
3243*67e74705SXin Li RD->startDefinition();
3244*67e74705SXin Li addFieldToRecordDecl(C, RD, KmpTaskTQTy);
3245*67e74705SXin Li if (auto *PrivateRD = createPrivatesRecordDecl(CGM, Privates)) {
3246*67e74705SXin Li addFieldToRecordDecl(C, RD, C.getRecordType(PrivateRD));
3247*67e74705SXin Li }
3248*67e74705SXin Li RD->completeDefinition();
3249*67e74705SXin Li return RD;
3250*67e74705SXin Li }
3251*67e74705SXin Li
3252*67e74705SXin Li /// \brief Emit a proxy function which accepts kmp_task_t as the second
3253*67e74705SXin Li /// argument.
3254*67e74705SXin Li /// \code
3255*67e74705SXin Li /// kmp_int32 .omp_task_entry.(kmp_int32 gtid, kmp_task_t *tt) {
3256*67e74705SXin Li /// TaskFunction(gtid, tt->part_id, &tt->privates, task_privates_map, tt,
3257*67e74705SXin Li /// For taskloops:
3258*67e74705SXin Li /// tt->task_data.lb, tt->task_data.ub, tt->task_data.st, tt->task_data.liter,
3259*67e74705SXin Li /// tt->shareds);
3260*67e74705SXin Li /// return 0;
3261*67e74705SXin Li /// }
3262*67e74705SXin Li /// \endcode
3263*67e74705SXin Li static llvm::Value *
emitProxyTaskFunction(CodeGenModule & CGM,SourceLocation Loc,OpenMPDirectiveKind Kind,QualType KmpInt32Ty,QualType KmpTaskTWithPrivatesPtrQTy,QualType KmpTaskTWithPrivatesQTy,QualType KmpTaskTQTy,QualType SharedsPtrTy,llvm::Value * TaskFunction,llvm::Value * TaskPrivatesMap)3264*67e74705SXin Li emitProxyTaskFunction(CodeGenModule &CGM, SourceLocation Loc,
3265*67e74705SXin Li OpenMPDirectiveKind Kind, QualType KmpInt32Ty,
3266*67e74705SXin Li QualType KmpTaskTWithPrivatesPtrQTy,
3267*67e74705SXin Li QualType KmpTaskTWithPrivatesQTy, QualType KmpTaskTQTy,
3268*67e74705SXin Li QualType SharedsPtrTy, llvm::Value *TaskFunction,
3269*67e74705SXin Li llvm::Value *TaskPrivatesMap) {
3270*67e74705SXin Li auto &C = CGM.getContext();
3271*67e74705SXin Li FunctionArgList Args;
3272*67e74705SXin Li ImplicitParamDecl GtidArg(C, /*DC=*/nullptr, Loc, /*Id=*/nullptr, KmpInt32Ty);
3273*67e74705SXin Li ImplicitParamDecl TaskTypeArg(C, /*DC=*/nullptr, Loc,
3274*67e74705SXin Li /*Id=*/nullptr,
3275*67e74705SXin Li KmpTaskTWithPrivatesPtrQTy.withRestrict());
3276*67e74705SXin Li Args.push_back(&GtidArg);
3277*67e74705SXin Li Args.push_back(&TaskTypeArg);
3278*67e74705SXin Li auto &TaskEntryFnInfo =
3279*67e74705SXin Li CGM.getTypes().arrangeBuiltinFunctionDeclaration(KmpInt32Ty, Args);
3280*67e74705SXin Li auto *TaskEntryTy = CGM.getTypes().GetFunctionType(TaskEntryFnInfo);
3281*67e74705SXin Li auto *TaskEntry =
3282*67e74705SXin Li llvm::Function::Create(TaskEntryTy, llvm::GlobalValue::InternalLinkage,
3283*67e74705SXin Li ".omp_task_entry.", &CGM.getModule());
3284*67e74705SXin Li CGM.SetInternalFunctionAttributes(/*D=*/nullptr, TaskEntry, TaskEntryFnInfo);
3285*67e74705SXin Li CodeGenFunction CGF(CGM);
3286*67e74705SXin Li CGF.disableDebugInfo();
3287*67e74705SXin Li CGF.StartFunction(GlobalDecl(), KmpInt32Ty, TaskEntry, TaskEntryFnInfo, Args);
3288*67e74705SXin Li
3289*67e74705SXin Li // TaskFunction(gtid, tt->task_data.part_id, &tt->privates, task_privates_map,
3290*67e74705SXin Li // tt,
3291*67e74705SXin Li // For taskloops:
3292*67e74705SXin Li // tt->task_data.lb, tt->task_data.ub, tt->task_data.st, tt->task_data.liter,
3293*67e74705SXin Li // tt->task_data.shareds);
3294*67e74705SXin Li auto *GtidParam = CGF.EmitLoadOfScalar(
3295*67e74705SXin Li CGF.GetAddrOfLocalVar(&GtidArg), /*Volatile=*/false, KmpInt32Ty, Loc);
3296*67e74705SXin Li LValue TDBase = CGF.EmitLoadOfPointerLValue(
3297*67e74705SXin Li CGF.GetAddrOfLocalVar(&TaskTypeArg),
3298*67e74705SXin Li KmpTaskTWithPrivatesPtrQTy->castAs<PointerType>());
3299*67e74705SXin Li auto *KmpTaskTWithPrivatesQTyRD =
3300*67e74705SXin Li cast<RecordDecl>(KmpTaskTWithPrivatesQTy->getAsTagDecl());
3301*67e74705SXin Li LValue Base =
3302*67e74705SXin Li CGF.EmitLValueForField(TDBase, *KmpTaskTWithPrivatesQTyRD->field_begin());
3303*67e74705SXin Li auto *KmpTaskTQTyRD = cast<RecordDecl>(KmpTaskTQTy->getAsTagDecl());
3304*67e74705SXin Li auto PartIdFI = std::next(KmpTaskTQTyRD->field_begin(), KmpTaskTPartId);
3305*67e74705SXin Li auto PartIdLVal = CGF.EmitLValueForField(Base, *PartIdFI);
3306*67e74705SXin Li auto *PartidParam = PartIdLVal.getPointer();
3307*67e74705SXin Li
3308*67e74705SXin Li auto SharedsFI = std::next(KmpTaskTQTyRD->field_begin(), KmpTaskTShareds);
3309*67e74705SXin Li auto SharedsLVal = CGF.EmitLValueForField(Base, *SharedsFI);
3310*67e74705SXin Li auto *SharedsParam = CGF.Builder.CreatePointerBitCastOrAddrSpaceCast(
3311*67e74705SXin Li CGF.EmitLoadOfLValue(SharedsLVal, Loc).getScalarVal(),
3312*67e74705SXin Li CGF.ConvertTypeForMem(SharedsPtrTy));
3313*67e74705SXin Li
3314*67e74705SXin Li auto PrivatesFI = std::next(KmpTaskTWithPrivatesQTyRD->field_begin(), 1);
3315*67e74705SXin Li llvm::Value *PrivatesParam;
3316*67e74705SXin Li if (PrivatesFI != KmpTaskTWithPrivatesQTyRD->field_end()) {
3317*67e74705SXin Li auto PrivatesLVal = CGF.EmitLValueForField(TDBase, *PrivatesFI);
3318*67e74705SXin Li PrivatesParam = CGF.Builder.CreatePointerBitCastOrAddrSpaceCast(
3319*67e74705SXin Li PrivatesLVal.getPointer(), CGF.VoidPtrTy);
3320*67e74705SXin Li } else
3321*67e74705SXin Li PrivatesParam = llvm::ConstantPointerNull::get(CGF.VoidPtrTy);
3322*67e74705SXin Li
3323*67e74705SXin Li llvm::Value *CommonArgs[] = {GtidParam, PartidParam, PrivatesParam,
3324*67e74705SXin Li TaskPrivatesMap,
3325*67e74705SXin Li CGF.Builder
3326*67e74705SXin Li .CreatePointerBitCastOrAddrSpaceCast(
3327*67e74705SXin Li TDBase.getAddress(), CGF.VoidPtrTy)
3328*67e74705SXin Li .getPointer()};
3329*67e74705SXin Li SmallVector<llvm::Value *, 16> CallArgs(std::begin(CommonArgs),
3330*67e74705SXin Li std::end(CommonArgs));
3331*67e74705SXin Li if (isOpenMPTaskLoopDirective(Kind)) {
3332*67e74705SXin Li auto LBFI = std::next(KmpTaskTQTyRD->field_begin(), KmpTaskTLowerBound);
3333*67e74705SXin Li auto LBLVal = CGF.EmitLValueForField(Base, *LBFI);
3334*67e74705SXin Li auto *LBParam = CGF.EmitLoadOfLValue(LBLVal, Loc).getScalarVal();
3335*67e74705SXin Li auto UBFI = std::next(KmpTaskTQTyRD->field_begin(), KmpTaskTUpperBound);
3336*67e74705SXin Li auto UBLVal = CGF.EmitLValueForField(Base, *UBFI);
3337*67e74705SXin Li auto *UBParam = CGF.EmitLoadOfLValue(UBLVal, Loc).getScalarVal();
3338*67e74705SXin Li auto StFI = std::next(KmpTaskTQTyRD->field_begin(), KmpTaskTStride);
3339*67e74705SXin Li auto StLVal = CGF.EmitLValueForField(Base, *StFI);
3340*67e74705SXin Li auto *StParam = CGF.EmitLoadOfLValue(StLVal, Loc).getScalarVal();
3341*67e74705SXin Li auto LIFI = std::next(KmpTaskTQTyRD->field_begin(), KmpTaskTLastIter);
3342*67e74705SXin Li auto LILVal = CGF.EmitLValueForField(Base, *LIFI);
3343*67e74705SXin Li auto *LIParam = CGF.EmitLoadOfLValue(LILVal, Loc).getScalarVal();
3344*67e74705SXin Li CallArgs.push_back(LBParam);
3345*67e74705SXin Li CallArgs.push_back(UBParam);
3346*67e74705SXin Li CallArgs.push_back(StParam);
3347*67e74705SXin Li CallArgs.push_back(LIParam);
3348*67e74705SXin Li }
3349*67e74705SXin Li CallArgs.push_back(SharedsParam);
3350*67e74705SXin Li
3351*67e74705SXin Li CGF.EmitCallOrInvoke(TaskFunction, CallArgs);
3352*67e74705SXin Li CGF.EmitStoreThroughLValue(
3353*67e74705SXin Li RValue::get(CGF.Builder.getInt32(/*C=*/0)),
3354*67e74705SXin Li CGF.MakeAddrLValue(CGF.ReturnValue, KmpInt32Ty));
3355*67e74705SXin Li CGF.FinishFunction();
3356*67e74705SXin Li return TaskEntry;
3357*67e74705SXin Li }
3358*67e74705SXin Li
emitDestructorsFunction(CodeGenModule & CGM,SourceLocation Loc,QualType KmpInt32Ty,QualType KmpTaskTWithPrivatesPtrQTy,QualType KmpTaskTWithPrivatesQTy)3359*67e74705SXin Li static llvm::Value *emitDestructorsFunction(CodeGenModule &CGM,
3360*67e74705SXin Li SourceLocation Loc,
3361*67e74705SXin Li QualType KmpInt32Ty,
3362*67e74705SXin Li QualType KmpTaskTWithPrivatesPtrQTy,
3363*67e74705SXin Li QualType KmpTaskTWithPrivatesQTy) {
3364*67e74705SXin Li auto &C = CGM.getContext();
3365*67e74705SXin Li FunctionArgList Args;
3366*67e74705SXin Li ImplicitParamDecl GtidArg(C, /*DC=*/nullptr, Loc, /*Id=*/nullptr, KmpInt32Ty);
3367*67e74705SXin Li ImplicitParamDecl TaskTypeArg(C, /*DC=*/nullptr, Loc,
3368*67e74705SXin Li /*Id=*/nullptr,
3369*67e74705SXin Li KmpTaskTWithPrivatesPtrQTy.withRestrict());
3370*67e74705SXin Li Args.push_back(&GtidArg);
3371*67e74705SXin Li Args.push_back(&TaskTypeArg);
3372*67e74705SXin Li FunctionType::ExtInfo Info;
3373*67e74705SXin Li auto &DestructorFnInfo =
3374*67e74705SXin Li CGM.getTypes().arrangeBuiltinFunctionDeclaration(KmpInt32Ty, Args);
3375*67e74705SXin Li auto *DestructorFnTy = CGM.getTypes().GetFunctionType(DestructorFnInfo);
3376*67e74705SXin Li auto *DestructorFn =
3377*67e74705SXin Li llvm::Function::Create(DestructorFnTy, llvm::GlobalValue::InternalLinkage,
3378*67e74705SXin Li ".omp_task_destructor.", &CGM.getModule());
3379*67e74705SXin Li CGM.SetInternalFunctionAttributes(/*D=*/nullptr, DestructorFn,
3380*67e74705SXin Li DestructorFnInfo);
3381*67e74705SXin Li CodeGenFunction CGF(CGM);
3382*67e74705SXin Li CGF.disableDebugInfo();
3383*67e74705SXin Li CGF.StartFunction(GlobalDecl(), KmpInt32Ty, DestructorFn, DestructorFnInfo,
3384*67e74705SXin Li Args);
3385*67e74705SXin Li
3386*67e74705SXin Li LValue Base = CGF.EmitLoadOfPointerLValue(
3387*67e74705SXin Li CGF.GetAddrOfLocalVar(&TaskTypeArg),
3388*67e74705SXin Li KmpTaskTWithPrivatesPtrQTy->castAs<PointerType>());
3389*67e74705SXin Li auto *KmpTaskTWithPrivatesQTyRD =
3390*67e74705SXin Li cast<RecordDecl>(KmpTaskTWithPrivatesQTy->getAsTagDecl());
3391*67e74705SXin Li auto FI = std::next(KmpTaskTWithPrivatesQTyRD->field_begin());
3392*67e74705SXin Li Base = CGF.EmitLValueForField(Base, *FI);
3393*67e74705SXin Li for (auto *Field :
3394*67e74705SXin Li cast<RecordDecl>(FI->getType()->getAsTagDecl())->fields()) {
3395*67e74705SXin Li if (auto DtorKind = Field->getType().isDestructedType()) {
3396*67e74705SXin Li auto FieldLValue = CGF.EmitLValueForField(Base, Field);
3397*67e74705SXin Li CGF.pushDestroy(DtorKind, FieldLValue.getAddress(), Field->getType());
3398*67e74705SXin Li }
3399*67e74705SXin Li }
3400*67e74705SXin Li CGF.FinishFunction();
3401*67e74705SXin Li return DestructorFn;
3402*67e74705SXin Li }
3403*67e74705SXin Li
3404*67e74705SXin Li /// \brief Emit a privates mapping function for correct handling of private and
3405*67e74705SXin Li /// firstprivate variables.
3406*67e74705SXin Li /// \code
3407*67e74705SXin Li /// void .omp_task_privates_map.(const .privates. *noalias privs, <ty1>
3408*67e74705SXin Li /// **noalias priv1,..., <tyn> **noalias privn) {
3409*67e74705SXin Li /// *priv1 = &.privates.priv1;
3410*67e74705SXin Li /// ...;
3411*67e74705SXin Li /// *privn = &.privates.privn;
3412*67e74705SXin Li /// }
3413*67e74705SXin Li /// \endcode
3414*67e74705SXin Li static llvm::Value *
emitTaskPrivateMappingFunction(CodeGenModule & CGM,SourceLocation Loc,ArrayRef<const Expr * > PrivateVars,ArrayRef<const Expr * > FirstprivateVars,ArrayRef<const Expr * > LastprivateVars,QualType PrivatesQTy,ArrayRef<PrivateDataTy> Privates)3415*67e74705SXin Li emitTaskPrivateMappingFunction(CodeGenModule &CGM, SourceLocation Loc,
3416*67e74705SXin Li ArrayRef<const Expr *> PrivateVars,
3417*67e74705SXin Li ArrayRef<const Expr *> FirstprivateVars,
3418*67e74705SXin Li ArrayRef<const Expr *> LastprivateVars,
3419*67e74705SXin Li QualType PrivatesQTy,
3420*67e74705SXin Li ArrayRef<PrivateDataTy> Privates) {
3421*67e74705SXin Li auto &C = CGM.getContext();
3422*67e74705SXin Li FunctionArgList Args;
3423*67e74705SXin Li ImplicitParamDecl TaskPrivatesArg(
3424*67e74705SXin Li C, /*DC=*/nullptr, Loc, /*Id=*/nullptr,
3425*67e74705SXin Li C.getPointerType(PrivatesQTy).withConst().withRestrict());
3426*67e74705SXin Li Args.push_back(&TaskPrivatesArg);
3427*67e74705SXin Li llvm::DenseMap<const VarDecl *, unsigned> PrivateVarsPos;
3428*67e74705SXin Li unsigned Counter = 1;
3429*67e74705SXin Li for (auto *E: PrivateVars) {
3430*67e74705SXin Li Args.push_back(ImplicitParamDecl::Create(
3431*67e74705SXin Li C, /*DC=*/nullptr, Loc,
3432*67e74705SXin Li /*Id=*/nullptr, C.getPointerType(C.getPointerType(E->getType()))
3433*67e74705SXin Li .withConst()
3434*67e74705SXin Li .withRestrict()));
3435*67e74705SXin Li auto *VD = cast<VarDecl>(cast<DeclRefExpr>(E)->getDecl());
3436*67e74705SXin Li PrivateVarsPos[VD] = Counter;
3437*67e74705SXin Li ++Counter;
3438*67e74705SXin Li }
3439*67e74705SXin Li for (auto *E : FirstprivateVars) {
3440*67e74705SXin Li Args.push_back(ImplicitParamDecl::Create(
3441*67e74705SXin Li C, /*DC=*/nullptr, Loc,
3442*67e74705SXin Li /*Id=*/nullptr, C.getPointerType(C.getPointerType(E->getType()))
3443*67e74705SXin Li .withConst()
3444*67e74705SXin Li .withRestrict()));
3445*67e74705SXin Li auto *VD = cast<VarDecl>(cast<DeclRefExpr>(E)->getDecl());
3446*67e74705SXin Li PrivateVarsPos[VD] = Counter;
3447*67e74705SXin Li ++Counter;
3448*67e74705SXin Li }
3449*67e74705SXin Li for (auto *E: LastprivateVars) {
3450*67e74705SXin Li Args.push_back(ImplicitParamDecl::Create(
3451*67e74705SXin Li C, /*DC=*/nullptr, Loc,
3452*67e74705SXin Li /*Id=*/nullptr, C.getPointerType(C.getPointerType(E->getType()))
3453*67e74705SXin Li .withConst()
3454*67e74705SXin Li .withRestrict()));
3455*67e74705SXin Li auto *VD = cast<VarDecl>(cast<DeclRefExpr>(E)->getDecl());
3456*67e74705SXin Li PrivateVarsPos[VD] = Counter;
3457*67e74705SXin Li ++Counter;
3458*67e74705SXin Li }
3459*67e74705SXin Li auto &TaskPrivatesMapFnInfo =
3460*67e74705SXin Li CGM.getTypes().arrangeBuiltinFunctionDeclaration(C.VoidTy, Args);
3461*67e74705SXin Li auto *TaskPrivatesMapTy =
3462*67e74705SXin Li CGM.getTypes().GetFunctionType(TaskPrivatesMapFnInfo);
3463*67e74705SXin Li auto *TaskPrivatesMap = llvm::Function::Create(
3464*67e74705SXin Li TaskPrivatesMapTy, llvm::GlobalValue::InternalLinkage,
3465*67e74705SXin Li ".omp_task_privates_map.", &CGM.getModule());
3466*67e74705SXin Li CGM.SetInternalFunctionAttributes(/*D=*/nullptr, TaskPrivatesMap,
3467*67e74705SXin Li TaskPrivatesMapFnInfo);
3468*67e74705SXin Li TaskPrivatesMap->addFnAttr(llvm::Attribute::AlwaysInline);
3469*67e74705SXin Li CodeGenFunction CGF(CGM);
3470*67e74705SXin Li CGF.disableDebugInfo();
3471*67e74705SXin Li CGF.StartFunction(GlobalDecl(), C.VoidTy, TaskPrivatesMap,
3472*67e74705SXin Li TaskPrivatesMapFnInfo, Args);
3473*67e74705SXin Li
3474*67e74705SXin Li // *privi = &.privates.privi;
3475*67e74705SXin Li LValue Base = CGF.EmitLoadOfPointerLValue(
3476*67e74705SXin Li CGF.GetAddrOfLocalVar(&TaskPrivatesArg),
3477*67e74705SXin Li TaskPrivatesArg.getType()->castAs<PointerType>());
3478*67e74705SXin Li auto *PrivatesQTyRD = cast<RecordDecl>(PrivatesQTy->getAsTagDecl());
3479*67e74705SXin Li Counter = 0;
3480*67e74705SXin Li for (auto *Field : PrivatesQTyRD->fields()) {
3481*67e74705SXin Li auto FieldLVal = CGF.EmitLValueForField(Base, Field);
3482*67e74705SXin Li auto *VD = Args[PrivateVarsPos[Privates[Counter].second.Original]];
3483*67e74705SXin Li auto RefLVal = CGF.MakeAddrLValue(CGF.GetAddrOfLocalVar(VD), VD->getType());
3484*67e74705SXin Li auto RefLoadLVal = CGF.EmitLoadOfPointerLValue(
3485*67e74705SXin Li RefLVal.getAddress(), RefLVal.getType()->castAs<PointerType>());
3486*67e74705SXin Li CGF.EmitStoreOfScalar(FieldLVal.getPointer(), RefLoadLVal);
3487*67e74705SXin Li ++Counter;
3488*67e74705SXin Li }
3489*67e74705SXin Li CGF.FinishFunction();
3490*67e74705SXin Li return TaskPrivatesMap;
3491*67e74705SXin Li }
3492*67e74705SXin Li
array_pod_sort_comparator(const PrivateDataTy * P1,const PrivateDataTy * P2)3493*67e74705SXin Li static int array_pod_sort_comparator(const PrivateDataTy *P1,
3494*67e74705SXin Li const PrivateDataTy *P2) {
3495*67e74705SXin Li return P1->first < P2->first ? 1 : (P2->first < P1->first ? -1 : 0);
3496*67e74705SXin Li }
3497*67e74705SXin Li
3498*67e74705SXin Li /// Emit initialization for private variables in task-based directives.
emitPrivatesInit(CodeGenFunction & CGF,const OMPExecutableDirective & D,Address KmpTaskSharedsPtr,LValue TDBase,const RecordDecl * KmpTaskTWithPrivatesQTyRD,QualType SharedsTy,QualType SharedsPtrTy,const OMPTaskDataTy & Data,ArrayRef<PrivateDataTy> Privates,bool ForDup)3499*67e74705SXin Li static void emitPrivatesInit(CodeGenFunction &CGF,
3500*67e74705SXin Li const OMPExecutableDirective &D,
3501*67e74705SXin Li Address KmpTaskSharedsPtr, LValue TDBase,
3502*67e74705SXin Li const RecordDecl *KmpTaskTWithPrivatesQTyRD,
3503*67e74705SXin Li QualType SharedsTy, QualType SharedsPtrTy,
3504*67e74705SXin Li const OMPTaskDataTy &Data,
3505*67e74705SXin Li ArrayRef<PrivateDataTy> Privates, bool ForDup) {
3506*67e74705SXin Li auto &C = CGF.getContext();
3507*67e74705SXin Li auto FI = std::next(KmpTaskTWithPrivatesQTyRD->field_begin());
3508*67e74705SXin Li LValue PrivatesBase = CGF.EmitLValueForField(TDBase, *FI);
3509*67e74705SXin Li LValue SrcBase;
3510*67e74705SXin Li if (!Data.FirstprivateVars.empty()) {
3511*67e74705SXin Li SrcBase = CGF.MakeAddrLValue(
3512*67e74705SXin Li CGF.Builder.CreatePointerBitCastOrAddrSpaceCast(
3513*67e74705SXin Li KmpTaskSharedsPtr, CGF.ConvertTypeForMem(SharedsPtrTy)),
3514*67e74705SXin Li SharedsTy);
3515*67e74705SXin Li }
3516*67e74705SXin Li CodeGenFunction::CGCapturedStmtInfo CapturesInfo(
3517*67e74705SXin Li cast<CapturedStmt>(*D.getAssociatedStmt()));
3518*67e74705SXin Li FI = cast<RecordDecl>(FI->getType()->getAsTagDecl())->field_begin();
3519*67e74705SXin Li for (auto &&Pair : Privates) {
3520*67e74705SXin Li auto *VD = Pair.second.PrivateCopy;
3521*67e74705SXin Li auto *Init = VD->getAnyInitializer();
3522*67e74705SXin Li if (Init && (!ForDup || (isa<CXXConstructExpr>(Init) &&
3523*67e74705SXin Li !CGF.isTrivialInitializer(Init)))) {
3524*67e74705SXin Li LValue PrivateLValue = CGF.EmitLValueForField(PrivatesBase, *FI);
3525*67e74705SXin Li if (auto *Elem = Pair.second.PrivateElemInit) {
3526*67e74705SXin Li auto *OriginalVD = Pair.second.Original;
3527*67e74705SXin Li auto *SharedField = CapturesInfo.lookup(OriginalVD);
3528*67e74705SXin Li auto SharedRefLValue = CGF.EmitLValueForField(SrcBase, SharedField);
3529*67e74705SXin Li SharedRefLValue = CGF.MakeAddrLValue(
3530*67e74705SXin Li Address(SharedRefLValue.getPointer(), C.getDeclAlign(OriginalVD)),
3531*67e74705SXin Li SharedRefLValue.getType(), AlignmentSource::Decl);
3532*67e74705SXin Li QualType Type = OriginalVD->getType();
3533*67e74705SXin Li if (Type->isArrayType()) {
3534*67e74705SXin Li // Initialize firstprivate array.
3535*67e74705SXin Li if (!isa<CXXConstructExpr>(Init) || CGF.isTrivialInitializer(Init)) {
3536*67e74705SXin Li // Perform simple memcpy.
3537*67e74705SXin Li CGF.EmitAggregateAssign(PrivateLValue.getAddress(),
3538*67e74705SXin Li SharedRefLValue.getAddress(), Type);
3539*67e74705SXin Li } else {
3540*67e74705SXin Li // Initialize firstprivate array using element-by-element
3541*67e74705SXin Li // intialization.
3542*67e74705SXin Li CGF.EmitOMPAggregateAssign(
3543*67e74705SXin Li PrivateLValue.getAddress(), SharedRefLValue.getAddress(), Type,
3544*67e74705SXin Li [&CGF, Elem, Init, &CapturesInfo](Address DestElement,
3545*67e74705SXin Li Address SrcElement) {
3546*67e74705SXin Li // Clean up any temporaries needed by the initialization.
3547*67e74705SXin Li CodeGenFunction::OMPPrivateScope InitScope(CGF);
3548*67e74705SXin Li InitScope.addPrivate(
3549*67e74705SXin Li Elem, [SrcElement]() -> Address { return SrcElement; });
3550*67e74705SXin Li (void)InitScope.Privatize();
3551*67e74705SXin Li // Emit initialization for single element.
3552*67e74705SXin Li CodeGenFunction::CGCapturedStmtRAII CapInfoRAII(
3553*67e74705SXin Li CGF, &CapturesInfo);
3554*67e74705SXin Li CGF.EmitAnyExprToMem(Init, DestElement,
3555*67e74705SXin Li Init->getType().getQualifiers(),
3556*67e74705SXin Li /*IsInitializer=*/false);
3557*67e74705SXin Li });
3558*67e74705SXin Li }
3559*67e74705SXin Li } else {
3560*67e74705SXin Li CodeGenFunction::OMPPrivateScope InitScope(CGF);
3561*67e74705SXin Li InitScope.addPrivate(Elem, [SharedRefLValue]() -> Address {
3562*67e74705SXin Li return SharedRefLValue.getAddress();
3563*67e74705SXin Li });
3564*67e74705SXin Li (void)InitScope.Privatize();
3565*67e74705SXin Li CodeGenFunction::CGCapturedStmtRAII CapInfoRAII(CGF, &CapturesInfo);
3566*67e74705SXin Li CGF.EmitExprAsInit(Init, VD, PrivateLValue,
3567*67e74705SXin Li /*capturedByInit=*/false);
3568*67e74705SXin Li }
3569*67e74705SXin Li } else
3570*67e74705SXin Li CGF.EmitExprAsInit(Init, VD, PrivateLValue, /*capturedByInit=*/false);
3571*67e74705SXin Li }
3572*67e74705SXin Li ++FI;
3573*67e74705SXin Li }
3574*67e74705SXin Li }
3575*67e74705SXin Li
3576*67e74705SXin Li /// Check if duplication function is required for taskloops.
checkInitIsRequired(CodeGenFunction & CGF,ArrayRef<PrivateDataTy> Privates)3577*67e74705SXin Li static bool checkInitIsRequired(CodeGenFunction &CGF,
3578*67e74705SXin Li ArrayRef<PrivateDataTy> Privates) {
3579*67e74705SXin Li bool InitRequired = false;
3580*67e74705SXin Li for (auto &&Pair : Privates) {
3581*67e74705SXin Li auto *VD = Pair.second.PrivateCopy;
3582*67e74705SXin Li auto *Init = VD->getAnyInitializer();
3583*67e74705SXin Li InitRequired = InitRequired || (Init && isa<CXXConstructExpr>(Init) &&
3584*67e74705SXin Li !CGF.isTrivialInitializer(Init));
3585*67e74705SXin Li }
3586*67e74705SXin Li return InitRequired;
3587*67e74705SXin Li }
3588*67e74705SXin Li
3589*67e74705SXin Li
3590*67e74705SXin Li /// Emit task_dup function (for initialization of
3591*67e74705SXin Li /// private/firstprivate/lastprivate vars and last_iter flag)
3592*67e74705SXin Li /// \code
3593*67e74705SXin Li /// void __task_dup_entry(kmp_task_t *task_dst, const kmp_task_t *task_src, int
3594*67e74705SXin Li /// lastpriv) {
3595*67e74705SXin Li /// // setup lastprivate flag
3596*67e74705SXin Li /// task_dst->last = lastpriv;
3597*67e74705SXin Li /// // could be constructor calls here...
3598*67e74705SXin Li /// }
3599*67e74705SXin Li /// \endcode
3600*67e74705SXin Li static llvm::Value *
emitTaskDupFunction(CodeGenModule & CGM,SourceLocation Loc,const OMPExecutableDirective & D,QualType KmpTaskTWithPrivatesPtrQTy,const RecordDecl * KmpTaskTWithPrivatesQTyRD,const RecordDecl * KmpTaskTQTyRD,QualType SharedsTy,QualType SharedsPtrTy,const OMPTaskDataTy & Data,ArrayRef<PrivateDataTy> Privates,bool WithLastIter)3601*67e74705SXin Li emitTaskDupFunction(CodeGenModule &CGM, SourceLocation Loc,
3602*67e74705SXin Li const OMPExecutableDirective &D,
3603*67e74705SXin Li QualType KmpTaskTWithPrivatesPtrQTy,
3604*67e74705SXin Li const RecordDecl *KmpTaskTWithPrivatesQTyRD,
3605*67e74705SXin Li const RecordDecl *KmpTaskTQTyRD, QualType SharedsTy,
3606*67e74705SXin Li QualType SharedsPtrTy, const OMPTaskDataTy &Data,
3607*67e74705SXin Li ArrayRef<PrivateDataTy> Privates, bool WithLastIter) {
3608*67e74705SXin Li auto &C = CGM.getContext();
3609*67e74705SXin Li FunctionArgList Args;
3610*67e74705SXin Li ImplicitParamDecl DstArg(C, /*DC=*/nullptr, Loc,
3611*67e74705SXin Li /*Id=*/nullptr, KmpTaskTWithPrivatesPtrQTy);
3612*67e74705SXin Li ImplicitParamDecl SrcArg(C, /*DC=*/nullptr, Loc,
3613*67e74705SXin Li /*Id=*/nullptr, KmpTaskTWithPrivatesPtrQTy);
3614*67e74705SXin Li ImplicitParamDecl LastprivArg(C, /*DC=*/nullptr, Loc,
3615*67e74705SXin Li /*Id=*/nullptr, C.IntTy);
3616*67e74705SXin Li Args.push_back(&DstArg);
3617*67e74705SXin Li Args.push_back(&SrcArg);
3618*67e74705SXin Li Args.push_back(&LastprivArg);
3619*67e74705SXin Li auto &TaskDupFnInfo =
3620*67e74705SXin Li CGM.getTypes().arrangeBuiltinFunctionDeclaration(C.VoidTy, Args);
3621*67e74705SXin Li auto *TaskDupTy = CGM.getTypes().GetFunctionType(TaskDupFnInfo);
3622*67e74705SXin Li auto *TaskDup =
3623*67e74705SXin Li llvm::Function::Create(TaskDupTy, llvm::GlobalValue::InternalLinkage,
3624*67e74705SXin Li ".omp_task_dup.", &CGM.getModule());
3625*67e74705SXin Li CGM.SetInternalFunctionAttributes(/*D=*/nullptr, TaskDup, TaskDupFnInfo);
3626*67e74705SXin Li CodeGenFunction CGF(CGM);
3627*67e74705SXin Li CGF.disableDebugInfo();
3628*67e74705SXin Li CGF.StartFunction(GlobalDecl(), C.VoidTy, TaskDup, TaskDupFnInfo, Args);
3629*67e74705SXin Li
3630*67e74705SXin Li LValue TDBase = CGF.EmitLoadOfPointerLValue(
3631*67e74705SXin Li CGF.GetAddrOfLocalVar(&DstArg),
3632*67e74705SXin Li KmpTaskTWithPrivatesPtrQTy->castAs<PointerType>());
3633*67e74705SXin Li // task_dst->liter = lastpriv;
3634*67e74705SXin Li if (WithLastIter) {
3635*67e74705SXin Li auto LIFI = std::next(KmpTaskTQTyRD->field_begin(), KmpTaskTLastIter);
3636*67e74705SXin Li LValue Base = CGF.EmitLValueForField(
3637*67e74705SXin Li TDBase, *KmpTaskTWithPrivatesQTyRD->field_begin());
3638*67e74705SXin Li LValue LILVal = CGF.EmitLValueForField(Base, *LIFI);
3639*67e74705SXin Li llvm::Value *Lastpriv = CGF.EmitLoadOfScalar(
3640*67e74705SXin Li CGF.GetAddrOfLocalVar(&LastprivArg), /*Volatile=*/false, C.IntTy, Loc);
3641*67e74705SXin Li CGF.EmitStoreOfScalar(Lastpriv, LILVal);
3642*67e74705SXin Li }
3643*67e74705SXin Li
3644*67e74705SXin Li // Emit initial values for private copies (if any).
3645*67e74705SXin Li assert(!Privates.empty());
3646*67e74705SXin Li Address KmpTaskSharedsPtr = Address::invalid();
3647*67e74705SXin Li if (!Data.FirstprivateVars.empty()) {
3648*67e74705SXin Li LValue TDBase = CGF.EmitLoadOfPointerLValue(
3649*67e74705SXin Li CGF.GetAddrOfLocalVar(&SrcArg),
3650*67e74705SXin Li KmpTaskTWithPrivatesPtrQTy->castAs<PointerType>());
3651*67e74705SXin Li LValue Base = CGF.EmitLValueForField(
3652*67e74705SXin Li TDBase, *KmpTaskTWithPrivatesQTyRD->field_begin());
3653*67e74705SXin Li KmpTaskSharedsPtr = Address(
3654*67e74705SXin Li CGF.EmitLoadOfScalar(CGF.EmitLValueForField(
3655*67e74705SXin Li Base, *std::next(KmpTaskTQTyRD->field_begin(),
3656*67e74705SXin Li KmpTaskTShareds)),
3657*67e74705SXin Li Loc),
3658*67e74705SXin Li CGF.getNaturalTypeAlignment(SharedsTy));
3659*67e74705SXin Li }
3660*67e74705SXin Li emitPrivatesInit(CGF, D, KmpTaskSharedsPtr, TDBase, KmpTaskTWithPrivatesQTyRD,
3661*67e74705SXin Li SharedsTy, SharedsPtrTy, Data, Privates, /*ForDup=*/true);
3662*67e74705SXin Li CGF.FinishFunction();
3663*67e74705SXin Li return TaskDup;
3664*67e74705SXin Li }
3665*67e74705SXin Li
3666*67e74705SXin Li /// Checks if destructor function is required to be generated.
3667*67e74705SXin Li /// \return true if cleanups are required, false otherwise.
3668*67e74705SXin Li static bool
checkDestructorsRequired(const RecordDecl * KmpTaskTWithPrivatesQTyRD)3669*67e74705SXin Li checkDestructorsRequired(const RecordDecl *KmpTaskTWithPrivatesQTyRD) {
3670*67e74705SXin Li bool NeedsCleanup = false;
3671*67e74705SXin Li auto FI = std::next(KmpTaskTWithPrivatesQTyRD->field_begin());
3672*67e74705SXin Li auto *PrivateRD = cast<RecordDecl>(FI->getType()->getAsTagDecl());
3673*67e74705SXin Li for (auto *FD : PrivateRD->fields()) {
3674*67e74705SXin Li NeedsCleanup = NeedsCleanup || FD->getType().isDestructedType();
3675*67e74705SXin Li if (NeedsCleanup)
3676*67e74705SXin Li break;
3677*67e74705SXin Li }
3678*67e74705SXin Li return NeedsCleanup;
3679*67e74705SXin Li }
3680*67e74705SXin Li
3681*67e74705SXin Li CGOpenMPRuntime::TaskResultTy
emitTaskInit(CodeGenFunction & CGF,SourceLocation Loc,const OMPExecutableDirective & D,llvm::Value * TaskFunction,QualType SharedsTy,Address Shareds,const OMPTaskDataTy & Data)3682*67e74705SXin Li CGOpenMPRuntime::emitTaskInit(CodeGenFunction &CGF, SourceLocation Loc,
3683*67e74705SXin Li const OMPExecutableDirective &D,
3684*67e74705SXin Li llvm::Value *TaskFunction, QualType SharedsTy,
3685*67e74705SXin Li Address Shareds, const OMPTaskDataTy &Data) {
3686*67e74705SXin Li auto &C = CGM.getContext();
3687*67e74705SXin Li llvm::SmallVector<PrivateDataTy, 4> Privates;
3688*67e74705SXin Li // Aggregate privates and sort them by the alignment.
3689*67e74705SXin Li auto I = Data.PrivateCopies.begin();
3690*67e74705SXin Li for (auto *E : Data.PrivateVars) {
3691*67e74705SXin Li auto *VD = cast<VarDecl>(cast<DeclRefExpr>(E)->getDecl());
3692*67e74705SXin Li Privates.push_back(std::make_pair(
3693*67e74705SXin Li C.getDeclAlign(VD),
3694*67e74705SXin Li PrivateHelpersTy(VD, cast<VarDecl>(cast<DeclRefExpr>(*I)->getDecl()),
3695*67e74705SXin Li /*PrivateElemInit=*/nullptr)));
3696*67e74705SXin Li ++I;
3697*67e74705SXin Li }
3698*67e74705SXin Li I = Data.FirstprivateCopies.begin();
3699*67e74705SXin Li auto IElemInitRef = Data.FirstprivateInits.begin();
3700*67e74705SXin Li for (auto *E : Data.FirstprivateVars) {
3701*67e74705SXin Li auto *VD = cast<VarDecl>(cast<DeclRefExpr>(E)->getDecl());
3702*67e74705SXin Li Privates.push_back(std::make_pair(
3703*67e74705SXin Li C.getDeclAlign(VD),
3704*67e74705SXin Li PrivateHelpersTy(
3705*67e74705SXin Li VD, cast<VarDecl>(cast<DeclRefExpr>(*I)->getDecl()),
3706*67e74705SXin Li cast<VarDecl>(cast<DeclRefExpr>(*IElemInitRef)->getDecl()))));
3707*67e74705SXin Li ++I;
3708*67e74705SXin Li ++IElemInitRef;
3709*67e74705SXin Li }
3710*67e74705SXin Li I = Data.LastprivateCopies.begin();
3711*67e74705SXin Li for (auto *E : Data.LastprivateVars) {
3712*67e74705SXin Li auto *VD = cast<VarDecl>(cast<DeclRefExpr>(E)->getDecl());
3713*67e74705SXin Li Privates.push_back(std::make_pair(
3714*67e74705SXin Li C.getDeclAlign(VD),
3715*67e74705SXin Li PrivateHelpersTy(VD, cast<VarDecl>(cast<DeclRefExpr>(*I)->getDecl()),
3716*67e74705SXin Li /*PrivateElemInit=*/nullptr)));
3717*67e74705SXin Li ++I;
3718*67e74705SXin Li }
3719*67e74705SXin Li llvm::array_pod_sort(Privates.begin(), Privates.end(),
3720*67e74705SXin Li array_pod_sort_comparator);
3721*67e74705SXin Li auto KmpInt32Ty = C.getIntTypeForBitwidth(/*DestWidth=*/32, /*Signed=*/1);
3722*67e74705SXin Li // Build type kmp_routine_entry_t (if not built yet).
3723*67e74705SXin Li emitKmpRoutineEntryT(KmpInt32Ty);
3724*67e74705SXin Li // Build type kmp_task_t (if not built yet).
3725*67e74705SXin Li if (KmpTaskTQTy.isNull()) {
3726*67e74705SXin Li KmpTaskTQTy = C.getRecordType(createKmpTaskTRecordDecl(
3727*67e74705SXin Li CGM, D.getDirectiveKind(), KmpInt32Ty, KmpRoutineEntryPtrQTy));
3728*67e74705SXin Li }
3729*67e74705SXin Li auto *KmpTaskTQTyRD = cast<RecordDecl>(KmpTaskTQTy->getAsTagDecl());
3730*67e74705SXin Li // Build particular struct kmp_task_t for the given task.
3731*67e74705SXin Li auto *KmpTaskTWithPrivatesQTyRD =
3732*67e74705SXin Li createKmpTaskTWithPrivatesRecordDecl(CGM, KmpTaskTQTy, Privates);
3733*67e74705SXin Li auto KmpTaskTWithPrivatesQTy = C.getRecordType(KmpTaskTWithPrivatesQTyRD);
3734*67e74705SXin Li QualType KmpTaskTWithPrivatesPtrQTy =
3735*67e74705SXin Li C.getPointerType(KmpTaskTWithPrivatesQTy);
3736*67e74705SXin Li auto *KmpTaskTWithPrivatesTy = CGF.ConvertType(KmpTaskTWithPrivatesQTy);
3737*67e74705SXin Li auto *KmpTaskTWithPrivatesPtrTy = KmpTaskTWithPrivatesTy->getPointerTo();
3738*67e74705SXin Li auto *KmpTaskTWithPrivatesTySize = CGF.getTypeSize(KmpTaskTWithPrivatesQTy);
3739*67e74705SXin Li QualType SharedsPtrTy = C.getPointerType(SharedsTy);
3740*67e74705SXin Li
3741*67e74705SXin Li // Emit initial values for private copies (if any).
3742*67e74705SXin Li llvm::Value *TaskPrivatesMap = nullptr;
3743*67e74705SXin Li auto *TaskPrivatesMapTy =
3744*67e74705SXin Li std::next(cast<llvm::Function>(TaskFunction)->getArgumentList().begin(),
3745*67e74705SXin Li 3)
3746*67e74705SXin Li ->getType();
3747*67e74705SXin Li if (!Privates.empty()) {
3748*67e74705SXin Li auto FI = std::next(KmpTaskTWithPrivatesQTyRD->field_begin());
3749*67e74705SXin Li TaskPrivatesMap = emitTaskPrivateMappingFunction(
3750*67e74705SXin Li CGM, Loc, Data.PrivateVars, Data.FirstprivateVars, Data.LastprivateVars,
3751*67e74705SXin Li FI->getType(), Privates);
3752*67e74705SXin Li TaskPrivatesMap = CGF.Builder.CreatePointerBitCastOrAddrSpaceCast(
3753*67e74705SXin Li TaskPrivatesMap, TaskPrivatesMapTy);
3754*67e74705SXin Li } else {
3755*67e74705SXin Li TaskPrivatesMap = llvm::ConstantPointerNull::get(
3756*67e74705SXin Li cast<llvm::PointerType>(TaskPrivatesMapTy));
3757*67e74705SXin Li }
3758*67e74705SXin Li // Build a proxy function kmp_int32 .omp_task_entry.(kmp_int32 gtid,
3759*67e74705SXin Li // kmp_task_t *tt);
3760*67e74705SXin Li auto *TaskEntry = emitProxyTaskFunction(
3761*67e74705SXin Li CGM, Loc, D.getDirectiveKind(), KmpInt32Ty, KmpTaskTWithPrivatesPtrQTy,
3762*67e74705SXin Li KmpTaskTWithPrivatesQTy, KmpTaskTQTy, SharedsPtrTy, TaskFunction,
3763*67e74705SXin Li TaskPrivatesMap);
3764*67e74705SXin Li
3765*67e74705SXin Li // Build call kmp_task_t * __kmpc_omp_task_alloc(ident_t *, kmp_int32 gtid,
3766*67e74705SXin Li // kmp_int32 flags, size_t sizeof_kmp_task_t, size_t sizeof_shareds,
3767*67e74705SXin Li // kmp_routine_entry_t *task_entry);
3768*67e74705SXin Li // Task flags. Format is taken from
3769*67e74705SXin Li // http://llvm.org/svn/llvm-project/openmp/trunk/runtime/src/kmp.h,
3770*67e74705SXin Li // description of kmp_tasking_flags struct.
3771*67e74705SXin Li enum {
3772*67e74705SXin Li TiedFlag = 0x1,
3773*67e74705SXin Li FinalFlag = 0x2,
3774*67e74705SXin Li DestructorsFlag = 0x8,
3775*67e74705SXin Li PriorityFlag = 0x20
3776*67e74705SXin Li };
3777*67e74705SXin Li unsigned Flags = Data.Tied ? TiedFlag : 0;
3778*67e74705SXin Li bool NeedsCleanup = false;
3779*67e74705SXin Li if (!Privates.empty()) {
3780*67e74705SXin Li NeedsCleanup = checkDestructorsRequired(KmpTaskTWithPrivatesQTyRD);
3781*67e74705SXin Li if (NeedsCleanup)
3782*67e74705SXin Li Flags = Flags | DestructorsFlag;
3783*67e74705SXin Li }
3784*67e74705SXin Li if (Data.Priority.getInt())
3785*67e74705SXin Li Flags = Flags | PriorityFlag;
3786*67e74705SXin Li auto *TaskFlags =
3787*67e74705SXin Li Data.Final.getPointer()
3788*67e74705SXin Li ? CGF.Builder.CreateSelect(Data.Final.getPointer(),
3789*67e74705SXin Li CGF.Builder.getInt32(FinalFlag),
3790*67e74705SXin Li CGF.Builder.getInt32(/*C=*/0))
3791*67e74705SXin Li : CGF.Builder.getInt32(Data.Final.getInt() ? FinalFlag : 0);
3792*67e74705SXin Li TaskFlags = CGF.Builder.CreateOr(TaskFlags, CGF.Builder.getInt32(Flags));
3793*67e74705SXin Li auto *SharedsSize = CGM.getSize(C.getTypeSizeInChars(SharedsTy));
3794*67e74705SXin Li llvm::Value *AllocArgs[] = {emitUpdateLocation(CGF, Loc),
3795*67e74705SXin Li getThreadID(CGF, Loc), TaskFlags,
3796*67e74705SXin Li KmpTaskTWithPrivatesTySize, SharedsSize,
3797*67e74705SXin Li CGF.Builder.CreatePointerBitCastOrAddrSpaceCast(
3798*67e74705SXin Li TaskEntry, KmpRoutineEntryPtrTy)};
3799*67e74705SXin Li auto *NewTask = CGF.EmitRuntimeCall(
3800*67e74705SXin Li createRuntimeFunction(OMPRTL__kmpc_omp_task_alloc), AllocArgs);
3801*67e74705SXin Li auto *NewTaskNewTaskTTy = CGF.Builder.CreatePointerBitCastOrAddrSpaceCast(
3802*67e74705SXin Li NewTask, KmpTaskTWithPrivatesPtrTy);
3803*67e74705SXin Li LValue Base = CGF.MakeNaturalAlignAddrLValue(NewTaskNewTaskTTy,
3804*67e74705SXin Li KmpTaskTWithPrivatesQTy);
3805*67e74705SXin Li LValue TDBase =
3806*67e74705SXin Li CGF.EmitLValueForField(Base, *KmpTaskTWithPrivatesQTyRD->field_begin());
3807*67e74705SXin Li // Fill the data in the resulting kmp_task_t record.
3808*67e74705SXin Li // Copy shareds if there are any.
3809*67e74705SXin Li Address KmpTaskSharedsPtr = Address::invalid();
3810*67e74705SXin Li if (!SharedsTy->getAsStructureType()->getDecl()->field_empty()) {
3811*67e74705SXin Li KmpTaskSharedsPtr =
3812*67e74705SXin Li Address(CGF.EmitLoadOfScalar(
3813*67e74705SXin Li CGF.EmitLValueForField(
3814*67e74705SXin Li TDBase, *std::next(KmpTaskTQTyRD->field_begin(),
3815*67e74705SXin Li KmpTaskTShareds)),
3816*67e74705SXin Li Loc),
3817*67e74705SXin Li CGF.getNaturalTypeAlignment(SharedsTy));
3818*67e74705SXin Li CGF.EmitAggregateCopy(KmpTaskSharedsPtr, Shareds, SharedsTy);
3819*67e74705SXin Li }
3820*67e74705SXin Li // Emit initial values for private copies (if any).
3821*67e74705SXin Li TaskResultTy Result;
3822*67e74705SXin Li if (!Privates.empty()) {
3823*67e74705SXin Li emitPrivatesInit(CGF, D, KmpTaskSharedsPtr, Base, KmpTaskTWithPrivatesQTyRD,
3824*67e74705SXin Li SharedsTy, SharedsPtrTy, Data, Privates,
3825*67e74705SXin Li /*ForDup=*/false);
3826*67e74705SXin Li if (isOpenMPTaskLoopDirective(D.getDirectiveKind()) &&
3827*67e74705SXin Li (!Data.LastprivateVars.empty() || checkInitIsRequired(CGF, Privates))) {
3828*67e74705SXin Li Result.TaskDupFn = emitTaskDupFunction(
3829*67e74705SXin Li CGM, Loc, D, KmpTaskTWithPrivatesPtrQTy, KmpTaskTWithPrivatesQTyRD,
3830*67e74705SXin Li KmpTaskTQTyRD, SharedsTy, SharedsPtrTy, Data, Privates,
3831*67e74705SXin Li /*WithLastIter=*/!Data.LastprivateVars.empty());
3832*67e74705SXin Li }
3833*67e74705SXin Li }
3834*67e74705SXin Li // Fields of union "kmp_cmplrdata_t" for destructors and priority.
3835*67e74705SXin Li enum { Priority = 0, Destructors = 1 };
3836*67e74705SXin Li // Provide pointer to function with destructors for privates.
3837*67e74705SXin Li auto FI = std::next(KmpTaskTQTyRD->field_begin(), Data1);
3838*67e74705SXin Li auto *KmpCmplrdataUD = (*FI)->getType()->getAsUnionType()->getDecl();
3839*67e74705SXin Li if (NeedsCleanup) {
3840*67e74705SXin Li llvm::Value *DestructorFn = emitDestructorsFunction(
3841*67e74705SXin Li CGM, Loc, KmpInt32Ty, KmpTaskTWithPrivatesPtrQTy,
3842*67e74705SXin Li KmpTaskTWithPrivatesQTy);
3843*67e74705SXin Li LValue Data1LV = CGF.EmitLValueForField(TDBase, *FI);
3844*67e74705SXin Li LValue DestructorsLV = CGF.EmitLValueForField(
3845*67e74705SXin Li Data1LV, *std::next(KmpCmplrdataUD->field_begin(), Destructors));
3846*67e74705SXin Li CGF.EmitStoreOfScalar(CGF.Builder.CreatePointerBitCastOrAddrSpaceCast(
3847*67e74705SXin Li DestructorFn, KmpRoutineEntryPtrTy),
3848*67e74705SXin Li DestructorsLV);
3849*67e74705SXin Li }
3850*67e74705SXin Li // Set priority.
3851*67e74705SXin Li if (Data.Priority.getInt()) {
3852*67e74705SXin Li LValue Data2LV = CGF.EmitLValueForField(
3853*67e74705SXin Li TDBase, *std::next(KmpTaskTQTyRD->field_begin(), Data2));
3854*67e74705SXin Li LValue PriorityLV = CGF.EmitLValueForField(
3855*67e74705SXin Li Data2LV, *std::next(KmpCmplrdataUD->field_begin(), Priority));
3856*67e74705SXin Li CGF.EmitStoreOfScalar(Data.Priority.getPointer(), PriorityLV);
3857*67e74705SXin Li }
3858*67e74705SXin Li Result.NewTask = NewTask;
3859*67e74705SXin Li Result.TaskEntry = TaskEntry;
3860*67e74705SXin Li Result.NewTaskNewTaskTTy = NewTaskNewTaskTTy;
3861*67e74705SXin Li Result.TDBase = TDBase;
3862*67e74705SXin Li Result.KmpTaskTQTyRD = KmpTaskTQTyRD;
3863*67e74705SXin Li return Result;
3864*67e74705SXin Li }
3865*67e74705SXin Li
emitTaskCall(CodeGenFunction & CGF,SourceLocation Loc,const OMPExecutableDirective & D,llvm::Value * TaskFunction,QualType SharedsTy,Address Shareds,const Expr * IfCond,const OMPTaskDataTy & Data)3866*67e74705SXin Li void CGOpenMPRuntime::emitTaskCall(CodeGenFunction &CGF, SourceLocation Loc,
3867*67e74705SXin Li const OMPExecutableDirective &D,
3868*67e74705SXin Li llvm::Value *TaskFunction,
3869*67e74705SXin Li QualType SharedsTy, Address Shareds,
3870*67e74705SXin Li const Expr *IfCond,
3871*67e74705SXin Li const OMPTaskDataTy &Data) {
3872*67e74705SXin Li if (!CGF.HaveInsertPoint())
3873*67e74705SXin Li return;
3874*67e74705SXin Li
3875*67e74705SXin Li TaskResultTy Result =
3876*67e74705SXin Li emitTaskInit(CGF, Loc, D, TaskFunction, SharedsTy, Shareds, Data);
3877*67e74705SXin Li llvm::Value *NewTask = Result.NewTask;
3878*67e74705SXin Li llvm::Value *TaskEntry = Result.TaskEntry;
3879*67e74705SXin Li llvm::Value *NewTaskNewTaskTTy = Result.NewTaskNewTaskTTy;
3880*67e74705SXin Li LValue TDBase = Result.TDBase;
3881*67e74705SXin Li RecordDecl *KmpTaskTQTyRD = Result.KmpTaskTQTyRD;
3882*67e74705SXin Li auto &C = CGM.getContext();
3883*67e74705SXin Li // Process list of dependences.
3884*67e74705SXin Li Address DependenciesArray = Address::invalid();
3885*67e74705SXin Li unsigned NumDependencies = Data.Dependences.size();
3886*67e74705SXin Li if (NumDependencies) {
3887*67e74705SXin Li // Dependence kind for RTL.
3888*67e74705SXin Li enum RTLDependenceKindTy { DepIn = 0x01, DepInOut = 0x3 };
3889*67e74705SXin Li enum RTLDependInfoFieldsTy { BaseAddr, Len, Flags };
3890*67e74705SXin Li RecordDecl *KmpDependInfoRD;
3891*67e74705SXin Li QualType FlagsTy =
3892*67e74705SXin Li C.getIntTypeForBitwidth(C.getTypeSize(C.BoolTy), /*Signed=*/false);
3893*67e74705SXin Li llvm::Type *LLVMFlagsTy = CGF.ConvertTypeForMem(FlagsTy);
3894*67e74705SXin Li if (KmpDependInfoTy.isNull()) {
3895*67e74705SXin Li KmpDependInfoRD = C.buildImplicitRecord("kmp_depend_info");
3896*67e74705SXin Li KmpDependInfoRD->startDefinition();
3897*67e74705SXin Li addFieldToRecordDecl(C, KmpDependInfoRD, C.getIntPtrType());
3898*67e74705SXin Li addFieldToRecordDecl(C, KmpDependInfoRD, C.getSizeType());
3899*67e74705SXin Li addFieldToRecordDecl(C, KmpDependInfoRD, FlagsTy);
3900*67e74705SXin Li KmpDependInfoRD->completeDefinition();
3901*67e74705SXin Li KmpDependInfoTy = C.getRecordType(KmpDependInfoRD);
3902*67e74705SXin Li } else
3903*67e74705SXin Li KmpDependInfoRD = cast<RecordDecl>(KmpDependInfoTy->getAsTagDecl());
3904*67e74705SXin Li CharUnits DependencySize = C.getTypeSizeInChars(KmpDependInfoTy);
3905*67e74705SXin Li // Define type kmp_depend_info[<Dependences.size()>];
3906*67e74705SXin Li QualType KmpDependInfoArrayTy = C.getConstantArrayType(
3907*67e74705SXin Li KmpDependInfoTy, llvm::APInt(/*numBits=*/64, NumDependencies),
3908*67e74705SXin Li ArrayType::Normal, /*IndexTypeQuals=*/0);
3909*67e74705SXin Li // kmp_depend_info[<Dependences.size()>] deps;
3910*67e74705SXin Li DependenciesArray =
3911*67e74705SXin Li CGF.CreateMemTemp(KmpDependInfoArrayTy, ".dep.arr.addr");
3912*67e74705SXin Li for (unsigned i = 0; i < NumDependencies; ++i) {
3913*67e74705SXin Li const Expr *E = Data.Dependences[i].second;
3914*67e74705SXin Li auto Addr = CGF.EmitLValue(E);
3915*67e74705SXin Li llvm::Value *Size;
3916*67e74705SXin Li QualType Ty = E->getType();
3917*67e74705SXin Li if (auto *ASE = dyn_cast<OMPArraySectionExpr>(E->IgnoreParenImpCasts())) {
3918*67e74705SXin Li LValue UpAddrLVal =
3919*67e74705SXin Li CGF.EmitOMPArraySectionExpr(ASE, /*LowerBound=*/false);
3920*67e74705SXin Li llvm::Value *UpAddr =
3921*67e74705SXin Li CGF.Builder.CreateConstGEP1_32(UpAddrLVal.getPointer(), /*Idx0=*/1);
3922*67e74705SXin Li llvm::Value *LowIntPtr =
3923*67e74705SXin Li CGF.Builder.CreatePtrToInt(Addr.getPointer(), CGM.SizeTy);
3924*67e74705SXin Li llvm::Value *UpIntPtr = CGF.Builder.CreatePtrToInt(UpAddr, CGM.SizeTy);
3925*67e74705SXin Li Size = CGF.Builder.CreateNUWSub(UpIntPtr, LowIntPtr);
3926*67e74705SXin Li } else
3927*67e74705SXin Li Size = CGF.getTypeSize(Ty);
3928*67e74705SXin Li auto Base = CGF.MakeAddrLValue(
3929*67e74705SXin Li CGF.Builder.CreateConstArrayGEP(DependenciesArray, i, DependencySize),
3930*67e74705SXin Li KmpDependInfoTy);
3931*67e74705SXin Li // deps[i].base_addr = &<Dependences[i].second>;
3932*67e74705SXin Li auto BaseAddrLVal = CGF.EmitLValueForField(
3933*67e74705SXin Li Base, *std::next(KmpDependInfoRD->field_begin(), BaseAddr));
3934*67e74705SXin Li CGF.EmitStoreOfScalar(
3935*67e74705SXin Li CGF.Builder.CreatePtrToInt(Addr.getPointer(), CGF.IntPtrTy),
3936*67e74705SXin Li BaseAddrLVal);
3937*67e74705SXin Li // deps[i].len = sizeof(<Dependences[i].second>);
3938*67e74705SXin Li auto LenLVal = CGF.EmitLValueForField(
3939*67e74705SXin Li Base, *std::next(KmpDependInfoRD->field_begin(), Len));
3940*67e74705SXin Li CGF.EmitStoreOfScalar(Size, LenLVal);
3941*67e74705SXin Li // deps[i].flags = <Dependences[i].first>;
3942*67e74705SXin Li RTLDependenceKindTy DepKind;
3943*67e74705SXin Li switch (Data.Dependences[i].first) {
3944*67e74705SXin Li case OMPC_DEPEND_in:
3945*67e74705SXin Li DepKind = DepIn;
3946*67e74705SXin Li break;
3947*67e74705SXin Li // Out and InOut dependencies must use the same code.
3948*67e74705SXin Li case OMPC_DEPEND_out:
3949*67e74705SXin Li case OMPC_DEPEND_inout:
3950*67e74705SXin Li DepKind = DepInOut;
3951*67e74705SXin Li break;
3952*67e74705SXin Li case OMPC_DEPEND_source:
3953*67e74705SXin Li case OMPC_DEPEND_sink:
3954*67e74705SXin Li case OMPC_DEPEND_unknown:
3955*67e74705SXin Li llvm_unreachable("Unknown task dependence type");
3956*67e74705SXin Li }
3957*67e74705SXin Li auto FlagsLVal = CGF.EmitLValueForField(
3958*67e74705SXin Li Base, *std::next(KmpDependInfoRD->field_begin(), Flags));
3959*67e74705SXin Li CGF.EmitStoreOfScalar(llvm::ConstantInt::get(LLVMFlagsTy, DepKind),
3960*67e74705SXin Li FlagsLVal);
3961*67e74705SXin Li }
3962*67e74705SXin Li DependenciesArray = CGF.Builder.CreatePointerBitCastOrAddrSpaceCast(
3963*67e74705SXin Li CGF.Builder.CreateStructGEP(DependenciesArray, 0, CharUnits::Zero()),
3964*67e74705SXin Li CGF.VoidPtrTy);
3965*67e74705SXin Li }
3966*67e74705SXin Li
3967*67e74705SXin Li // NOTE: routine and part_id fields are intialized by __kmpc_omp_task_alloc()
3968*67e74705SXin Li // libcall.
3969*67e74705SXin Li // Build kmp_int32 __kmpc_omp_task_with_deps(ident_t *, kmp_int32 gtid,
3970*67e74705SXin Li // kmp_task_t *new_task, kmp_int32 ndeps, kmp_depend_info_t *dep_list,
3971*67e74705SXin Li // kmp_int32 ndeps_noalias, kmp_depend_info_t *noalias_dep_list) if dependence
3972*67e74705SXin Li // list is not empty
3973*67e74705SXin Li auto *ThreadID = getThreadID(CGF, Loc);
3974*67e74705SXin Li auto *UpLoc = emitUpdateLocation(CGF, Loc);
3975*67e74705SXin Li llvm::Value *TaskArgs[] = { UpLoc, ThreadID, NewTask };
3976*67e74705SXin Li llvm::Value *DepTaskArgs[7];
3977*67e74705SXin Li if (NumDependencies) {
3978*67e74705SXin Li DepTaskArgs[0] = UpLoc;
3979*67e74705SXin Li DepTaskArgs[1] = ThreadID;
3980*67e74705SXin Li DepTaskArgs[2] = NewTask;
3981*67e74705SXin Li DepTaskArgs[3] = CGF.Builder.getInt32(NumDependencies);
3982*67e74705SXin Li DepTaskArgs[4] = DependenciesArray.getPointer();
3983*67e74705SXin Li DepTaskArgs[5] = CGF.Builder.getInt32(0);
3984*67e74705SXin Li DepTaskArgs[6] = llvm::ConstantPointerNull::get(CGF.VoidPtrTy);
3985*67e74705SXin Li }
3986*67e74705SXin Li auto &&ThenCodeGen = [this, Loc, &Data, TDBase, KmpTaskTQTyRD,
3987*67e74705SXin Li NumDependencies, &TaskArgs,
3988*67e74705SXin Li &DepTaskArgs](CodeGenFunction &CGF, PrePostActionTy &) {
3989*67e74705SXin Li if (!Data.Tied) {
3990*67e74705SXin Li auto PartIdFI = std::next(KmpTaskTQTyRD->field_begin(), KmpTaskTPartId);
3991*67e74705SXin Li auto PartIdLVal = CGF.EmitLValueForField(TDBase, *PartIdFI);
3992*67e74705SXin Li CGF.EmitStoreOfScalar(CGF.Builder.getInt32(0), PartIdLVal);
3993*67e74705SXin Li }
3994*67e74705SXin Li if (NumDependencies) {
3995*67e74705SXin Li CGF.EmitRuntimeCall(
3996*67e74705SXin Li createRuntimeFunction(OMPRTL__kmpc_omp_task_with_deps), DepTaskArgs);
3997*67e74705SXin Li } else {
3998*67e74705SXin Li CGF.EmitRuntimeCall(createRuntimeFunction(OMPRTL__kmpc_omp_task),
3999*67e74705SXin Li TaskArgs);
4000*67e74705SXin Li }
4001*67e74705SXin Li // Check if parent region is untied and build return for untied task;
4002*67e74705SXin Li if (auto *Region =
4003*67e74705SXin Li dyn_cast_or_null<CGOpenMPRegionInfo>(CGF.CapturedStmtInfo))
4004*67e74705SXin Li Region->emitUntiedSwitch(CGF);
4005*67e74705SXin Li };
4006*67e74705SXin Li
4007*67e74705SXin Li llvm::Value *DepWaitTaskArgs[6];
4008*67e74705SXin Li if (NumDependencies) {
4009*67e74705SXin Li DepWaitTaskArgs[0] = UpLoc;
4010*67e74705SXin Li DepWaitTaskArgs[1] = ThreadID;
4011*67e74705SXin Li DepWaitTaskArgs[2] = CGF.Builder.getInt32(NumDependencies);
4012*67e74705SXin Li DepWaitTaskArgs[3] = DependenciesArray.getPointer();
4013*67e74705SXin Li DepWaitTaskArgs[4] = CGF.Builder.getInt32(0);
4014*67e74705SXin Li DepWaitTaskArgs[5] = llvm::ConstantPointerNull::get(CGF.VoidPtrTy);
4015*67e74705SXin Li }
4016*67e74705SXin Li auto &&ElseCodeGen = [&TaskArgs, ThreadID, NewTaskNewTaskTTy, TaskEntry,
4017*67e74705SXin Li NumDependencies, &DepWaitTaskArgs](CodeGenFunction &CGF,
4018*67e74705SXin Li PrePostActionTy &) {
4019*67e74705SXin Li auto &RT = CGF.CGM.getOpenMPRuntime();
4020*67e74705SXin Li CodeGenFunction::RunCleanupsScope LocalScope(CGF);
4021*67e74705SXin Li // Build void __kmpc_omp_wait_deps(ident_t *, kmp_int32 gtid,
4022*67e74705SXin Li // kmp_int32 ndeps, kmp_depend_info_t *dep_list, kmp_int32
4023*67e74705SXin Li // ndeps_noalias, kmp_depend_info_t *noalias_dep_list); if dependence info
4024*67e74705SXin Li // is specified.
4025*67e74705SXin Li if (NumDependencies)
4026*67e74705SXin Li CGF.EmitRuntimeCall(RT.createRuntimeFunction(OMPRTL__kmpc_omp_wait_deps),
4027*67e74705SXin Li DepWaitTaskArgs);
4028*67e74705SXin Li // Call proxy_task_entry(gtid, new_task);
4029*67e74705SXin Li auto &&CodeGen = [TaskEntry, ThreadID, NewTaskNewTaskTTy](
4030*67e74705SXin Li CodeGenFunction &CGF, PrePostActionTy &Action) {
4031*67e74705SXin Li Action.Enter(CGF);
4032*67e74705SXin Li llvm::Value *OutlinedFnArgs[] = {ThreadID, NewTaskNewTaskTTy};
4033*67e74705SXin Li CGF.EmitCallOrInvoke(TaskEntry, OutlinedFnArgs);
4034*67e74705SXin Li };
4035*67e74705SXin Li
4036*67e74705SXin Li // Build void __kmpc_omp_task_begin_if0(ident_t *, kmp_int32 gtid,
4037*67e74705SXin Li // kmp_task_t *new_task);
4038*67e74705SXin Li // Build void __kmpc_omp_task_complete_if0(ident_t *, kmp_int32 gtid,
4039*67e74705SXin Li // kmp_task_t *new_task);
4040*67e74705SXin Li RegionCodeGenTy RCG(CodeGen);
4041*67e74705SXin Li CommonActionTy Action(
4042*67e74705SXin Li RT.createRuntimeFunction(OMPRTL__kmpc_omp_task_begin_if0), TaskArgs,
4043*67e74705SXin Li RT.createRuntimeFunction(OMPRTL__kmpc_omp_task_complete_if0), TaskArgs);
4044*67e74705SXin Li RCG.setAction(Action);
4045*67e74705SXin Li RCG(CGF);
4046*67e74705SXin Li };
4047*67e74705SXin Li
4048*67e74705SXin Li if (IfCond)
4049*67e74705SXin Li emitOMPIfClause(CGF, IfCond, ThenCodeGen, ElseCodeGen);
4050*67e74705SXin Li else {
4051*67e74705SXin Li RegionCodeGenTy ThenRCG(ThenCodeGen);
4052*67e74705SXin Li ThenRCG(CGF);
4053*67e74705SXin Li }
4054*67e74705SXin Li }
4055*67e74705SXin Li
emitTaskLoopCall(CodeGenFunction & CGF,SourceLocation Loc,const OMPLoopDirective & D,llvm::Value * TaskFunction,QualType SharedsTy,Address Shareds,const Expr * IfCond,const OMPTaskDataTy & Data)4056*67e74705SXin Li void CGOpenMPRuntime::emitTaskLoopCall(CodeGenFunction &CGF, SourceLocation Loc,
4057*67e74705SXin Li const OMPLoopDirective &D,
4058*67e74705SXin Li llvm::Value *TaskFunction,
4059*67e74705SXin Li QualType SharedsTy, Address Shareds,
4060*67e74705SXin Li const Expr *IfCond,
4061*67e74705SXin Li const OMPTaskDataTy &Data) {
4062*67e74705SXin Li if (!CGF.HaveInsertPoint())
4063*67e74705SXin Li return;
4064*67e74705SXin Li TaskResultTy Result =
4065*67e74705SXin Li emitTaskInit(CGF, Loc, D, TaskFunction, SharedsTy, Shareds, Data);
4066*67e74705SXin Li // NOTE: routine and part_id fields are intialized by __kmpc_omp_task_alloc()
4067*67e74705SXin Li // libcall.
4068*67e74705SXin Li // Call to void __kmpc_taskloop(ident_t *loc, int gtid, kmp_task_t *task, int
4069*67e74705SXin Li // if_val, kmp_uint64 *lb, kmp_uint64 *ub, kmp_int64 st, int nogroup, int
4070*67e74705SXin Li // sched, kmp_uint64 grainsize, void *task_dup);
4071*67e74705SXin Li llvm::Value *ThreadID = getThreadID(CGF, Loc);
4072*67e74705SXin Li llvm::Value *UpLoc = emitUpdateLocation(CGF, Loc);
4073*67e74705SXin Li llvm::Value *IfVal;
4074*67e74705SXin Li if (IfCond) {
4075*67e74705SXin Li IfVal = CGF.Builder.CreateIntCast(CGF.EvaluateExprAsBool(IfCond), CGF.IntTy,
4076*67e74705SXin Li /*isSigned=*/true);
4077*67e74705SXin Li } else
4078*67e74705SXin Li IfVal = llvm::ConstantInt::getSigned(CGF.IntTy, /*V=*/1);
4079*67e74705SXin Li
4080*67e74705SXin Li LValue LBLVal = CGF.EmitLValueForField(
4081*67e74705SXin Li Result.TDBase,
4082*67e74705SXin Li *std::next(Result.KmpTaskTQTyRD->field_begin(), KmpTaskTLowerBound));
4083*67e74705SXin Li auto *LBVar =
4084*67e74705SXin Li cast<VarDecl>(cast<DeclRefExpr>(D.getLowerBoundVariable())->getDecl());
4085*67e74705SXin Li CGF.EmitAnyExprToMem(LBVar->getInit(), LBLVal.getAddress(), LBLVal.getQuals(),
4086*67e74705SXin Li /*IsInitializer=*/true);
4087*67e74705SXin Li LValue UBLVal = CGF.EmitLValueForField(
4088*67e74705SXin Li Result.TDBase,
4089*67e74705SXin Li *std::next(Result.KmpTaskTQTyRD->field_begin(), KmpTaskTUpperBound));
4090*67e74705SXin Li auto *UBVar =
4091*67e74705SXin Li cast<VarDecl>(cast<DeclRefExpr>(D.getUpperBoundVariable())->getDecl());
4092*67e74705SXin Li CGF.EmitAnyExprToMem(UBVar->getInit(), UBLVal.getAddress(), UBLVal.getQuals(),
4093*67e74705SXin Li /*IsInitializer=*/true);
4094*67e74705SXin Li LValue StLVal = CGF.EmitLValueForField(
4095*67e74705SXin Li Result.TDBase,
4096*67e74705SXin Li *std::next(Result.KmpTaskTQTyRD->field_begin(), KmpTaskTStride));
4097*67e74705SXin Li auto *StVar =
4098*67e74705SXin Li cast<VarDecl>(cast<DeclRefExpr>(D.getStrideVariable())->getDecl());
4099*67e74705SXin Li CGF.EmitAnyExprToMem(StVar->getInit(), StLVal.getAddress(), StLVal.getQuals(),
4100*67e74705SXin Li /*IsInitializer=*/true);
4101*67e74705SXin Li enum { NoSchedule = 0, Grainsize = 1, NumTasks = 2 };
4102*67e74705SXin Li llvm::Value *TaskArgs[] = {
4103*67e74705SXin Li UpLoc, ThreadID, Result.NewTask, IfVal, LBLVal.getPointer(),
4104*67e74705SXin Li UBLVal.getPointer(), CGF.EmitLoadOfScalar(StLVal, SourceLocation()),
4105*67e74705SXin Li llvm::ConstantInt::getSigned(CGF.IntTy, Data.Nogroup ? 1 : 0),
4106*67e74705SXin Li llvm::ConstantInt::getSigned(
4107*67e74705SXin Li CGF.IntTy, Data.Schedule.getPointer()
4108*67e74705SXin Li ? Data.Schedule.getInt() ? NumTasks : Grainsize
4109*67e74705SXin Li : NoSchedule),
4110*67e74705SXin Li Data.Schedule.getPointer()
4111*67e74705SXin Li ? CGF.Builder.CreateIntCast(Data.Schedule.getPointer(), CGF.Int64Ty,
4112*67e74705SXin Li /*isSigned=*/false)
4113*67e74705SXin Li : llvm::ConstantInt::get(CGF.Int64Ty, /*V=*/0),
4114*67e74705SXin Li Result.TaskDupFn
4115*67e74705SXin Li ? CGF.Builder.CreatePointerBitCastOrAddrSpaceCast(Result.TaskDupFn,
4116*67e74705SXin Li CGF.VoidPtrTy)
4117*67e74705SXin Li : llvm::ConstantPointerNull::get(CGF.VoidPtrTy)};
4118*67e74705SXin Li CGF.EmitRuntimeCall(createRuntimeFunction(OMPRTL__kmpc_taskloop), TaskArgs);
4119*67e74705SXin Li }
4120*67e74705SXin Li
4121*67e74705SXin Li /// \brief Emit reduction operation for each element of array (required for
4122*67e74705SXin Li /// array sections) LHS op = RHS.
4123*67e74705SXin Li /// \param Type Type of array.
4124*67e74705SXin Li /// \param LHSVar Variable on the left side of the reduction operation
4125*67e74705SXin Li /// (references element of array in original variable).
4126*67e74705SXin Li /// \param RHSVar Variable on the right side of the reduction operation
4127*67e74705SXin Li /// (references element of array in original variable).
4128*67e74705SXin Li /// \param RedOpGen Generator of reduction operation with use of LHSVar and
4129*67e74705SXin Li /// RHSVar.
EmitOMPAggregateReduction(CodeGenFunction & CGF,QualType Type,const VarDecl * LHSVar,const VarDecl * RHSVar,const llvm::function_ref<void (CodeGenFunction & CGF,const Expr *,const Expr *,const Expr *)> & RedOpGen,const Expr * XExpr=nullptr,const Expr * EExpr=nullptr,const Expr * UpExpr=nullptr)4130*67e74705SXin Li static void EmitOMPAggregateReduction(
4131*67e74705SXin Li CodeGenFunction &CGF, QualType Type, const VarDecl *LHSVar,
4132*67e74705SXin Li const VarDecl *RHSVar,
4133*67e74705SXin Li const llvm::function_ref<void(CodeGenFunction &CGF, const Expr *,
4134*67e74705SXin Li const Expr *, const Expr *)> &RedOpGen,
4135*67e74705SXin Li const Expr *XExpr = nullptr, const Expr *EExpr = nullptr,
4136*67e74705SXin Li const Expr *UpExpr = nullptr) {
4137*67e74705SXin Li // Perform element-by-element initialization.
4138*67e74705SXin Li QualType ElementTy;
4139*67e74705SXin Li Address LHSAddr = CGF.GetAddrOfLocalVar(LHSVar);
4140*67e74705SXin Li Address RHSAddr = CGF.GetAddrOfLocalVar(RHSVar);
4141*67e74705SXin Li
4142*67e74705SXin Li // Drill down to the base element type on both arrays.
4143*67e74705SXin Li auto ArrayTy = Type->getAsArrayTypeUnsafe();
4144*67e74705SXin Li auto NumElements = CGF.emitArrayLength(ArrayTy, ElementTy, LHSAddr);
4145*67e74705SXin Li
4146*67e74705SXin Li auto RHSBegin = RHSAddr.getPointer();
4147*67e74705SXin Li auto LHSBegin = LHSAddr.getPointer();
4148*67e74705SXin Li // Cast from pointer to array type to pointer to single element.
4149*67e74705SXin Li auto LHSEnd = CGF.Builder.CreateGEP(LHSBegin, NumElements);
4150*67e74705SXin Li // The basic structure here is a while-do loop.
4151*67e74705SXin Li auto BodyBB = CGF.createBasicBlock("omp.arraycpy.body");
4152*67e74705SXin Li auto DoneBB = CGF.createBasicBlock("omp.arraycpy.done");
4153*67e74705SXin Li auto IsEmpty =
4154*67e74705SXin Li CGF.Builder.CreateICmpEQ(LHSBegin, LHSEnd, "omp.arraycpy.isempty");
4155*67e74705SXin Li CGF.Builder.CreateCondBr(IsEmpty, DoneBB, BodyBB);
4156*67e74705SXin Li
4157*67e74705SXin Li // Enter the loop body, making that address the current address.
4158*67e74705SXin Li auto EntryBB = CGF.Builder.GetInsertBlock();
4159*67e74705SXin Li CGF.EmitBlock(BodyBB);
4160*67e74705SXin Li
4161*67e74705SXin Li CharUnits ElementSize = CGF.getContext().getTypeSizeInChars(ElementTy);
4162*67e74705SXin Li
4163*67e74705SXin Li llvm::PHINode *RHSElementPHI = CGF.Builder.CreatePHI(
4164*67e74705SXin Li RHSBegin->getType(), 2, "omp.arraycpy.srcElementPast");
4165*67e74705SXin Li RHSElementPHI->addIncoming(RHSBegin, EntryBB);
4166*67e74705SXin Li Address RHSElementCurrent =
4167*67e74705SXin Li Address(RHSElementPHI,
4168*67e74705SXin Li RHSAddr.getAlignment().alignmentOfArrayElement(ElementSize));
4169*67e74705SXin Li
4170*67e74705SXin Li llvm::PHINode *LHSElementPHI = CGF.Builder.CreatePHI(
4171*67e74705SXin Li LHSBegin->getType(), 2, "omp.arraycpy.destElementPast");
4172*67e74705SXin Li LHSElementPHI->addIncoming(LHSBegin, EntryBB);
4173*67e74705SXin Li Address LHSElementCurrent =
4174*67e74705SXin Li Address(LHSElementPHI,
4175*67e74705SXin Li LHSAddr.getAlignment().alignmentOfArrayElement(ElementSize));
4176*67e74705SXin Li
4177*67e74705SXin Li // Emit copy.
4178*67e74705SXin Li CodeGenFunction::OMPPrivateScope Scope(CGF);
4179*67e74705SXin Li Scope.addPrivate(LHSVar, [=]() -> Address { return LHSElementCurrent; });
4180*67e74705SXin Li Scope.addPrivate(RHSVar, [=]() -> Address { return RHSElementCurrent; });
4181*67e74705SXin Li Scope.Privatize();
4182*67e74705SXin Li RedOpGen(CGF, XExpr, EExpr, UpExpr);
4183*67e74705SXin Li Scope.ForceCleanup();
4184*67e74705SXin Li
4185*67e74705SXin Li // Shift the address forward by one element.
4186*67e74705SXin Li auto LHSElementNext = CGF.Builder.CreateConstGEP1_32(
4187*67e74705SXin Li LHSElementPHI, /*Idx0=*/1, "omp.arraycpy.dest.element");
4188*67e74705SXin Li auto RHSElementNext = CGF.Builder.CreateConstGEP1_32(
4189*67e74705SXin Li RHSElementPHI, /*Idx0=*/1, "omp.arraycpy.src.element");
4190*67e74705SXin Li // Check whether we've reached the end.
4191*67e74705SXin Li auto Done =
4192*67e74705SXin Li CGF.Builder.CreateICmpEQ(LHSElementNext, LHSEnd, "omp.arraycpy.done");
4193*67e74705SXin Li CGF.Builder.CreateCondBr(Done, DoneBB, BodyBB);
4194*67e74705SXin Li LHSElementPHI->addIncoming(LHSElementNext, CGF.Builder.GetInsertBlock());
4195*67e74705SXin Li RHSElementPHI->addIncoming(RHSElementNext, CGF.Builder.GetInsertBlock());
4196*67e74705SXin Li
4197*67e74705SXin Li // Done.
4198*67e74705SXin Li CGF.EmitBlock(DoneBB, /*IsFinished=*/true);
4199*67e74705SXin Li }
4200*67e74705SXin Li
4201*67e74705SXin Li /// Emit reduction combiner. If the combiner is a simple expression emit it as
4202*67e74705SXin Li /// is, otherwise consider it as combiner of UDR decl and emit it as a call of
4203*67e74705SXin Li /// UDR combiner function.
emitReductionCombiner(CodeGenFunction & CGF,const Expr * ReductionOp)4204*67e74705SXin Li static void emitReductionCombiner(CodeGenFunction &CGF,
4205*67e74705SXin Li const Expr *ReductionOp) {
4206*67e74705SXin Li if (auto *CE = dyn_cast<CallExpr>(ReductionOp))
4207*67e74705SXin Li if (auto *OVE = dyn_cast<OpaqueValueExpr>(CE->getCallee()))
4208*67e74705SXin Li if (auto *DRE =
4209*67e74705SXin Li dyn_cast<DeclRefExpr>(OVE->getSourceExpr()->IgnoreImpCasts()))
4210*67e74705SXin Li if (auto *DRD = dyn_cast<OMPDeclareReductionDecl>(DRE->getDecl())) {
4211*67e74705SXin Li std::pair<llvm::Function *, llvm::Function *> Reduction =
4212*67e74705SXin Li CGF.CGM.getOpenMPRuntime().getUserDefinedReduction(DRD);
4213*67e74705SXin Li RValue Func = RValue::get(Reduction.first);
4214*67e74705SXin Li CodeGenFunction::OpaqueValueMapping Map(CGF, OVE, Func);
4215*67e74705SXin Li CGF.EmitIgnoredExpr(ReductionOp);
4216*67e74705SXin Li return;
4217*67e74705SXin Li }
4218*67e74705SXin Li CGF.EmitIgnoredExpr(ReductionOp);
4219*67e74705SXin Li }
4220*67e74705SXin Li
emitReductionFunction(CodeGenModule & CGM,llvm::Type * ArgsType,ArrayRef<const Expr * > Privates,ArrayRef<const Expr * > LHSExprs,ArrayRef<const Expr * > RHSExprs,ArrayRef<const Expr * > ReductionOps)4221*67e74705SXin Li static llvm::Value *emitReductionFunction(CodeGenModule &CGM,
4222*67e74705SXin Li llvm::Type *ArgsType,
4223*67e74705SXin Li ArrayRef<const Expr *> Privates,
4224*67e74705SXin Li ArrayRef<const Expr *> LHSExprs,
4225*67e74705SXin Li ArrayRef<const Expr *> RHSExprs,
4226*67e74705SXin Li ArrayRef<const Expr *> ReductionOps) {
4227*67e74705SXin Li auto &C = CGM.getContext();
4228*67e74705SXin Li
4229*67e74705SXin Li // void reduction_func(void *LHSArg, void *RHSArg);
4230*67e74705SXin Li FunctionArgList Args;
4231*67e74705SXin Li ImplicitParamDecl LHSArg(C, /*DC=*/nullptr, SourceLocation(), /*Id=*/nullptr,
4232*67e74705SXin Li C.VoidPtrTy);
4233*67e74705SXin Li ImplicitParamDecl RHSArg(C, /*DC=*/nullptr, SourceLocation(), /*Id=*/nullptr,
4234*67e74705SXin Li C.VoidPtrTy);
4235*67e74705SXin Li Args.push_back(&LHSArg);
4236*67e74705SXin Li Args.push_back(&RHSArg);
4237*67e74705SXin Li auto &CGFI = CGM.getTypes().arrangeBuiltinFunctionDeclaration(C.VoidTy, Args);
4238*67e74705SXin Li auto *Fn = llvm::Function::Create(
4239*67e74705SXin Li CGM.getTypes().GetFunctionType(CGFI), llvm::GlobalValue::InternalLinkage,
4240*67e74705SXin Li ".omp.reduction.reduction_func", &CGM.getModule());
4241*67e74705SXin Li CGM.SetInternalFunctionAttributes(/*D=*/nullptr, Fn, CGFI);
4242*67e74705SXin Li CodeGenFunction CGF(CGM);
4243*67e74705SXin Li CGF.StartFunction(GlobalDecl(), C.VoidTy, Fn, CGFI, Args);
4244*67e74705SXin Li
4245*67e74705SXin Li // Dst = (void*[n])(LHSArg);
4246*67e74705SXin Li // Src = (void*[n])(RHSArg);
4247*67e74705SXin Li Address LHS(CGF.Builder.CreatePointerBitCastOrAddrSpaceCast(
4248*67e74705SXin Li CGF.Builder.CreateLoad(CGF.GetAddrOfLocalVar(&LHSArg)),
4249*67e74705SXin Li ArgsType), CGF.getPointerAlign());
4250*67e74705SXin Li Address RHS(CGF.Builder.CreatePointerBitCastOrAddrSpaceCast(
4251*67e74705SXin Li CGF.Builder.CreateLoad(CGF.GetAddrOfLocalVar(&RHSArg)),
4252*67e74705SXin Li ArgsType), CGF.getPointerAlign());
4253*67e74705SXin Li
4254*67e74705SXin Li // ...
4255*67e74705SXin Li // *(Type<i>*)lhs[i] = RedOp<i>(*(Type<i>*)lhs[i], *(Type<i>*)rhs[i]);
4256*67e74705SXin Li // ...
4257*67e74705SXin Li CodeGenFunction::OMPPrivateScope Scope(CGF);
4258*67e74705SXin Li auto IPriv = Privates.begin();
4259*67e74705SXin Li unsigned Idx = 0;
4260*67e74705SXin Li for (unsigned I = 0, E = ReductionOps.size(); I < E; ++I, ++IPriv, ++Idx) {
4261*67e74705SXin Li auto RHSVar = cast<VarDecl>(cast<DeclRefExpr>(RHSExprs[I])->getDecl());
4262*67e74705SXin Li Scope.addPrivate(RHSVar, [&]() -> Address {
4263*67e74705SXin Li return emitAddrOfVarFromArray(CGF, RHS, Idx, RHSVar);
4264*67e74705SXin Li });
4265*67e74705SXin Li auto LHSVar = cast<VarDecl>(cast<DeclRefExpr>(LHSExprs[I])->getDecl());
4266*67e74705SXin Li Scope.addPrivate(LHSVar, [&]() -> Address {
4267*67e74705SXin Li return emitAddrOfVarFromArray(CGF, LHS, Idx, LHSVar);
4268*67e74705SXin Li });
4269*67e74705SXin Li QualType PrivTy = (*IPriv)->getType();
4270*67e74705SXin Li if (PrivTy->isVariablyModifiedType()) {
4271*67e74705SXin Li // Get array size and emit VLA type.
4272*67e74705SXin Li ++Idx;
4273*67e74705SXin Li Address Elem =
4274*67e74705SXin Li CGF.Builder.CreateConstArrayGEP(LHS, Idx, CGF.getPointerSize());
4275*67e74705SXin Li llvm::Value *Ptr = CGF.Builder.CreateLoad(Elem);
4276*67e74705SXin Li auto *VLA = CGF.getContext().getAsVariableArrayType(PrivTy);
4277*67e74705SXin Li auto *OVE = cast<OpaqueValueExpr>(VLA->getSizeExpr());
4278*67e74705SXin Li CodeGenFunction::OpaqueValueMapping OpaqueMap(
4279*67e74705SXin Li CGF, OVE, RValue::get(CGF.Builder.CreatePtrToInt(Ptr, CGF.SizeTy)));
4280*67e74705SXin Li CGF.EmitVariablyModifiedType(PrivTy);
4281*67e74705SXin Li }
4282*67e74705SXin Li }
4283*67e74705SXin Li Scope.Privatize();
4284*67e74705SXin Li IPriv = Privates.begin();
4285*67e74705SXin Li auto ILHS = LHSExprs.begin();
4286*67e74705SXin Li auto IRHS = RHSExprs.begin();
4287*67e74705SXin Li for (auto *E : ReductionOps) {
4288*67e74705SXin Li if ((*IPriv)->getType()->isArrayType()) {
4289*67e74705SXin Li // Emit reduction for array section.
4290*67e74705SXin Li auto *LHSVar = cast<VarDecl>(cast<DeclRefExpr>(*ILHS)->getDecl());
4291*67e74705SXin Li auto *RHSVar = cast<VarDecl>(cast<DeclRefExpr>(*IRHS)->getDecl());
4292*67e74705SXin Li EmitOMPAggregateReduction(
4293*67e74705SXin Li CGF, (*IPriv)->getType(), LHSVar, RHSVar,
4294*67e74705SXin Li [=](CodeGenFunction &CGF, const Expr *, const Expr *, const Expr *) {
4295*67e74705SXin Li emitReductionCombiner(CGF, E);
4296*67e74705SXin Li });
4297*67e74705SXin Li } else
4298*67e74705SXin Li // Emit reduction for array subscript or single variable.
4299*67e74705SXin Li emitReductionCombiner(CGF, E);
4300*67e74705SXin Li ++IPriv;
4301*67e74705SXin Li ++ILHS;
4302*67e74705SXin Li ++IRHS;
4303*67e74705SXin Li }
4304*67e74705SXin Li Scope.ForceCleanup();
4305*67e74705SXin Li CGF.FinishFunction();
4306*67e74705SXin Li return Fn;
4307*67e74705SXin Li }
4308*67e74705SXin Li
emitSingleReductionCombiner(CodeGenFunction & CGF,const Expr * ReductionOp,const Expr * PrivateRef,const DeclRefExpr * LHS,const DeclRefExpr * RHS)4309*67e74705SXin Li static void emitSingleReductionCombiner(CodeGenFunction &CGF,
4310*67e74705SXin Li const Expr *ReductionOp,
4311*67e74705SXin Li const Expr *PrivateRef,
4312*67e74705SXin Li const DeclRefExpr *LHS,
4313*67e74705SXin Li const DeclRefExpr *RHS) {
4314*67e74705SXin Li if (PrivateRef->getType()->isArrayType()) {
4315*67e74705SXin Li // Emit reduction for array section.
4316*67e74705SXin Li auto *LHSVar = cast<VarDecl>(LHS->getDecl());
4317*67e74705SXin Li auto *RHSVar = cast<VarDecl>(RHS->getDecl());
4318*67e74705SXin Li EmitOMPAggregateReduction(
4319*67e74705SXin Li CGF, PrivateRef->getType(), LHSVar, RHSVar,
4320*67e74705SXin Li [=](CodeGenFunction &CGF, const Expr *, const Expr *, const Expr *) {
4321*67e74705SXin Li emitReductionCombiner(CGF, ReductionOp);
4322*67e74705SXin Li });
4323*67e74705SXin Li } else
4324*67e74705SXin Li // Emit reduction for array subscript or single variable.
4325*67e74705SXin Li emitReductionCombiner(CGF, ReductionOp);
4326*67e74705SXin Li }
4327*67e74705SXin Li
emitReduction(CodeGenFunction & CGF,SourceLocation Loc,ArrayRef<const Expr * > Privates,ArrayRef<const Expr * > LHSExprs,ArrayRef<const Expr * > RHSExprs,ArrayRef<const Expr * > ReductionOps,bool WithNowait,bool SimpleReduction)4328*67e74705SXin Li void CGOpenMPRuntime::emitReduction(CodeGenFunction &CGF, SourceLocation Loc,
4329*67e74705SXin Li ArrayRef<const Expr *> Privates,
4330*67e74705SXin Li ArrayRef<const Expr *> LHSExprs,
4331*67e74705SXin Li ArrayRef<const Expr *> RHSExprs,
4332*67e74705SXin Li ArrayRef<const Expr *> ReductionOps,
4333*67e74705SXin Li bool WithNowait, bool SimpleReduction) {
4334*67e74705SXin Li if (!CGF.HaveInsertPoint())
4335*67e74705SXin Li return;
4336*67e74705SXin Li // Next code should be emitted for reduction:
4337*67e74705SXin Li //
4338*67e74705SXin Li // static kmp_critical_name lock = { 0 };
4339*67e74705SXin Li //
4340*67e74705SXin Li // void reduce_func(void *lhs[<n>], void *rhs[<n>]) {
4341*67e74705SXin Li // *(Type0*)lhs[0] = ReductionOperation0(*(Type0*)lhs[0], *(Type0*)rhs[0]);
4342*67e74705SXin Li // ...
4343*67e74705SXin Li // *(Type<n>-1*)lhs[<n>-1] = ReductionOperation<n>-1(*(Type<n>-1*)lhs[<n>-1],
4344*67e74705SXin Li // *(Type<n>-1*)rhs[<n>-1]);
4345*67e74705SXin Li // }
4346*67e74705SXin Li //
4347*67e74705SXin Li // ...
4348*67e74705SXin Li // void *RedList[<n>] = {&<RHSExprs>[0], ..., &<RHSExprs>[<n>-1]};
4349*67e74705SXin Li // switch (__kmpc_reduce{_nowait}(<loc>, <gtid>, <n>, sizeof(RedList),
4350*67e74705SXin Li // RedList, reduce_func, &<lock>)) {
4351*67e74705SXin Li // case 1:
4352*67e74705SXin Li // ...
4353*67e74705SXin Li // <LHSExprs>[i] = RedOp<i>(*<LHSExprs>[i], *<RHSExprs>[i]);
4354*67e74705SXin Li // ...
4355*67e74705SXin Li // __kmpc_end_reduce{_nowait}(<loc>, <gtid>, &<lock>);
4356*67e74705SXin Li // break;
4357*67e74705SXin Li // case 2:
4358*67e74705SXin Li // ...
4359*67e74705SXin Li // Atomic(<LHSExprs>[i] = RedOp<i>(*<LHSExprs>[i], *<RHSExprs>[i]));
4360*67e74705SXin Li // ...
4361*67e74705SXin Li // [__kmpc_end_reduce(<loc>, <gtid>, &<lock>);]
4362*67e74705SXin Li // break;
4363*67e74705SXin Li // default:;
4364*67e74705SXin Li // }
4365*67e74705SXin Li //
4366*67e74705SXin Li // if SimpleReduction is true, only the next code is generated:
4367*67e74705SXin Li // ...
4368*67e74705SXin Li // <LHSExprs>[i] = RedOp<i>(*<LHSExprs>[i], *<RHSExprs>[i]);
4369*67e74705SXin Li // ...
4370*67e74705SXin Li
4371*67e74705SXin Li auto &C = CGM.getContext();
4372*67e74705SXin Li
4373*67e74705SXin Li if (SimpleReduction) {
4374*67e74705SXin Li CodeGenFunction::RunCleanupsScope Scope(CGF);
4375*67e74705SXin Li auto IPriv = Privates.begin();
4376*67e74705SXin Li auto ILHS = LHSExprs.begin();
4377*67e74705SXin Li auto IRHS = RHSExprs.begin();
4378*67e74705SXin Li for (auto *E : ReductionOps) {
4379*67e74705SXin Li emitSingleReductionCombiner(CGF, E, *IPriv, cast<DeclRefExpr>(*ILHS),
4380*67e74705SXin Li cast<DeclRefExpr>(*IRHS));
4381*67e74705SXin Li ++IPriv;
4382*67e74705SXin Li ++ILHS;
4383*67e74705SXin Li ++IRHS;
4384*67e74705SXin Li }
4385*67e74705SXin Li return;
4386*67e74705SXin Li }
4387*67e74705SXin Li
4388*67e74705SXin Li // 1. Build a list of reduction variables.
4389*67e74705SXin Li // void *RedList[<n>] = {<ReductionVars>[0], ..., <ReductionVars>[<n>-1]};
4390*67e74705SXin Li auto Size = RHSExprs.size();
4391*67e74705SXin Li for (auto *E : Privates) {
4392*67e74705SXin Li if (E->getType()->isVariablyModifiedType())
4393*67e74705SXin Li // Reserve place for array size.
4394*67e74705SXin Li ++Size;
4395*67e74705SXin Li }
4396*67e74705SXin Li llvm::APInt ArraySize(/*unsigned int numBits=*/32, Size);
4397*67e74705SXin Li QualType ReductionArrayTy =
4398*67e74705SXin Li C.getConstantArrayType(C.VoidPtrTy, ArraySize, ArrayType::Normal,
4399*67e74705SXin Li /*IndexTypeQuals=*/0);
4400*67e74705SXin Li Address ReductionList =
4401*67e74705SXin Li CGF.CreateMemTemp(ReductionArrayTy, ".omp.reduction.red_list");
4402*67e74705SXin Li auto IPriv = Privates.begin();
4403*67e74705SXin Li unsigned Idx = 0;
4404*67e74705SXin Li for (unsigned I = 0, E = RHSExprs.size(); I < E; ++I, ++IPriv, ++Idx) {
4405*67e74705SXin Li Address Elem =
4406*67e74705SXin Li CGF.Builder.CreateConstArrayGEP(ReductionList, Idx, CGF.getPointerSize());
4407*67e74705SXin Li CGF.Builder.CreateStore(
4408*67e74705SXin Li CGF.Builder.CreatePointerBitCastOrAddrSpaceCast(
4409*67e74705SXin Li CGF.EmitLValue(RHSExprs[I]).getPointer(), CGF.VoidPtrTy),
4410*67e74705SXin Li Elem);
4411*67e74705SXin Li if ((*IPriv)->getType()->isVariablyModifiedType()) {
4412*67e74705SXin Li // Store array size.
4413*67e74705SXin Li ++Idx;
4414*67e74705SXin Li Elem = CGF.Builder.CreateConstArrayGEP(ReductionList, Idx,
4415*67e74705SXin Li CGF.getPointerSize());
4416*67e74705SXin Li llvm::Value *Size = CGF.Builder.CreateIntCast(
4417*67e74705SXin Li CGF.getVLASize(
4418*67e74705SXin Li CGF.getContext().getAsVariableArrayType((*IPriv)->getType()))
4419*67e74705SXin Li .first,
4420*67e74705SXin Li CGF.SizeTy, /*isSigned=*/false);
4421*67e74705SXin Li CGF.Builder.CreateStore(CGF.Builder.CreateIntToPtr(Size, CGF.VoidPtrTy),
4422*67e74705SXin Li Elem);
4423*67e74705SXin Li }
4424*67e74705SXin Li }
4425*67e74705SXin Li
4426*67e74705SXin Li // 2. Emit reduce_func().
4427*67e74705SXin Li auto *ReductionFn = emitReductionFunction(
4428*67e74705SXin Li CGM, CGF.ConvertTypeForMem(ReductionArrayTy)->getPointerTo(), Privates,
4429*67e74705SXin Li LHSExprs, RHSExprs, ReductionOps);
4430*67e74705SXin Li
4431*67e74705SXin Li // 3. Create static kmp_critical_name lock = { 0 };
4432*67e74705SXin Li auto *Lock = getCriticalRegionLock(".reduction");
4433*67e74705SXin Li
4434*67e74705SXin Li // 4. Build res = __kmpc_reduce{_nowait}(<loc>, <gtid>, <n>, sizeof(RedList),
4435*67e74705SXin Li // RedList, reduce_func, &<lock>);
4436*67e74705SXin Li auto *IdentTLoc = emitUpdateLocation(CGF, Loc, OMP_ATOMIC_REDUCE);
4437*67e74705SXin Li auto *ThreadId = getThreadID(CGF, Loc);
4438*67e74705SXin Li auto *ReductionArrayTySize = CGF.getTypeSize(ReductionArrayTy);
4439*67e74705SXin Li auto *RL =
4440*67e74705SXin Li CGF.Builder.CreatePointerBitCastOrAddrSpaceCast(ReductionList.getPointer(),
4441*67e74705SXin Li CGF.VoidPtrTy);
4442*67e74705SXin Li llvm::Value *Args[] = {
4443*67e74705SXin Li IdentTLoc, // ident_t *<loc>
4444*67e74705SXin Li ThreadId, // i32 <gtid>
4445*67e74705SXin Li CGF.Builder.getInt32(RHSExprs.size()), // i32 <n>
4446*67e74705SXin Li ReductionArrayTySize, // size_type sizeof(RedList)
4447*67e74705SXin Li RL, // void *RedList
4448*67e74705SXin Li ReductionFn, // void (*) (void *, void *) <reduce_func>
4449*67e74705SXin Li Lock // kmp_critical_name *&<lock>
4450*67e74705SXin Li };
4451*67e74705SXin Li auto Res = CGF.EmitRuntimeCall(
4452*67e74705SXin Li createRuntimeFunction(WithNowait ? OMPRTL__kmpc_reduce_nowait
4453*67e74705SXin Li : OMPRTL__kmpc_reduce),
4454*67e74705SXin Li Args);
4455*67e74705SXin Li
4456*67e74705SXin Li // 5. Build switch(res)
4457*67e74705SXin Li auto *DefaultBB = CGF.createBasicBlock(".omp.reduction.default");
4458*67e74705SXin Li auto *SwInst = CGF.Builder.CreateSwitch(Res, DefaultBB, /*NumCases=*/2);
4459*67e74705SXin Li
4460*67e74705SXin Li // 6. Build case 1:
4461*67e74705SXin Li // ...
4462*67e74705SXin Li // <LHSExprs>[i] = RedOp<i>(*<LHSExprs>[i], *<RHSExprs>[i]);
4463*67e74705SXin Li // ...
4464*67e74705SXin Li // __kmpc_end_reduce{_nowait}(<loc>, <gtid>, &<lock>);
4465*67e74705SXin Li // break;
4466*67e74705SXin Li auto *Case1BB = CGF.createBasicBlock(".omp.reduction.case1");
4467*67e74705SXin Li SwInst->addCase(CGF.Builder.getInt32(1), Case1BB);
4468*67e74705SXin Li CGF.EmitBlock(Case1BB);
4469*67e74705SXin Li
4470*67e74705SXin Li // Add emission of __kmpc_end_reduce{_nowait}(<loc>, <gtid>, &<lock>);
4471*67e74705SXin Li llvm::Value *EndArgs[] = {
4472*67e74705SXin Li IdentTLoc, // ident_t *<loc>
4473*67e74705SXin Li ThreadId, // i32 <gtid>
4474*67e74705SXin Li Lock // kmp_critical_name *&<lock>
4475*67e74705SXin Li };
4476*67e74705SXin Li auto &&CodeGen = [&Privates, &LHSExprs, &RHSExprs, &ReductionOps](
4477*67e74705SXin Li CodeGenFunction &CGF, PrePostActionTy &Action) {
4478*67e74705SXin Li auto IPriv = Privates.begin();
4479*67e74705SXin Li auto ILHS = LHSExprs.begin();
4480*67e74705SXin Li auto IRHS = RHSExprs.begin();
4481*67e74705SXin Li for (auto *E : ReductionOps) {
4482*67e74705SXin Li emitSingleReductionCombiner(CGF, E, *IPriv, cast<DeclRefExpr>(*ILHS),
4483*67e74705SXin Li cast<DeclRefExpr>(*IRHS));
4484*67e74705SXin Li ++IPriv;
4485*67e74705SXin Li ++ILHS;
4486*67e74705SXin Li ++IRHS;
4487*67e74705SXin Li }
4488*67e74705SXin Li };
4489*67e74705SXin Li RegionCodeGenTy RCG(CodeGen);
4490*67e74705SXin Li CommonActionTy Action(
4491*67e74705SXin Li nullptr, llvm::None,
4492*67e74705SXin Li createRuntimeFunction(WithNowait ? OMPRTL__kmpc_end_reduce_nowait
4493*67e74705SXin Li : OMPRTL__kmpc_end_reduce),
4494*67e74705SXin Li EndArgs);
4495*67e74705SXin Li RCG.setAction(Action);
4496*67e74705SXin Li RCG(CGF);
4497*67e74705SXin Li
4498*67e74705SXin Li CGF.EmitBranch(DefaultBB);
4499*67e74705SXin Li
4500*67e74705SXin Li // 7. Build case 2:
4501*67e74705SXin Li // ...
4502*67e74705SXin Li // Atomic(<LHSExprs>[i] = RedOp<i>(*<LHSExprs>[i], *<RHSExprs>[i]));
4503*67e74705SXin Li // ...
4504*67e74705SXin Li // break;
4505*67e74705SXin Li auto *Case2BB = CGF.createBasicBlock(".omp.reduction.case2");
4506*67e74705SXin Li SwInst->addCase(CGF.Builder.getInt32(2), Case2BB);
4507*67e74705SXin Li CGF.EmitBlock(Case2BB);
4508*67e74705SXin Li
4509*67e74705SXin Li auto &&AtomicCodeGen = [Loc, &Privates, &LHSExprs, &RHSExprs, &ReductionOps](
4510*67e74705SXin Li CodeGenFunction &CGF, PrePostActionTy &Action) {
4511*67e74705SXin Li auto ILHS = LHSExprs.begin();
4512*67e74705SXin Li auto IRHS = RHSExprs.begin();
4513*67e74705SXin Li auto IPriv = Privates.begin();
4514*67e74705SXin Li for (auto *E : ReductionOps) {
4515*67e74705SXin Li const Expr *XExpr = nullptr;
4516*67e74705SXin Li const Expr *EExpr = nullptr;
4517*67e74705SXin Li const Expr *UpExpr = nullptr;
4518*67e74705SXin Li BinaryOperatorKind BO = BO_Comma;
4519*67e74705SXin Li if (auto *BO = dyn_cast<BinaryOperator>(E)) {
4520*67e74705SXin Li if (BO->getOpcode() == BO_Assign) {
4521*67e74705SXin Li XExpr = BO->getLHS();
4522*67e74705SXin Li UpExpr = BO->getRHS();
4523*67e74705SXin Li }
4524*67e74705SXin Li }
4525*67e74705SXin Li // Try to emit update expression as a simple atomic.
4526*67e74705SXin Li auto *RHSExpr = UpExpr;
4527*67e74705SXin Li if (RHSExpr) {
4528*67e74705SXin Li // Analyze RHS part of the whole expression.
4529*67e74705SXin Li if (auto *ACO = dyn_cast<AbstractConditionalOperator>(
4530*67e74705SXin Li RHSExpr->IgnoreParenImpCasts())) {
4531*67e74705SXin Li // If this is a conditional operator, analyze its condition for
4532*67e74705SXin Li // min/max reduction operator.
4533*67e74705SXin Li RHSExpr = ACO->getCond();
4534*67e74705SXin Li }
4535*67e74705SXin Li if (auto *BORHS =
4536*67e74705SXin Li dyn_cast<BinaryOperator>(RHSExpr->IgnoreParenImpCasts())) {
4537*67e74705SXin Li EExpr = BORHS->getRHS();
4538*67e74705SXin Li BO = BORHS->getOpcode();
4539*67e74705SXin Li }
4540*67e74705SXin Li }
4541*67e74705SXin Li if (XExpr) {
4542*67e74705SXin Li auto *VD = cast<VarDecl>(cast<DeclRefExpr>(*ILHS)->getDecl());
4543*67e74705SXin Li auto &&AtomicRedGen = [BO, VD, IPriv,
4544*67e74705SXin Li Loc](CodeGenFunction &CGF, const Expr *XExpr,
4545*67e74705SXin Li const Expr *EExpr, const Expr *UpExpr) {
4546*67e74705SXin Li LValue X = CGF.EmitLValue(XExpr);
4547*67e74705SXin Li RValue E;
4548*67e74705SXin Li if (EExpr)
4549*67e74705SXin Li E = CGF.EmitAnyExpr(EExpr);
4550*67e74705SXin Li CGF.EmitOMPAtomicSimpleUpdateExpr(
4551*67e74705SXin Li X, E, BO, /*IsXLHSInRHSPart=*/true,
4552*67e74705SXin Li llvm::AtomicOrdering::Monotonic, Loc,
4553*67e74705SXin Li [&CGF, UpExpr, VD, IPriv, Loc](RValue XRValue) {
4554*67e74705SXin Li CodeGenFunction::OMPPrivateScope PrivateScope(CGF);
4555*67e74705SXin Li PrivateScope.addPrivate(
4556*67e74705SXin Li VD, [&CGF, VD, XRValue, Loc]() -> Address {
4557*67e74705SXin Li Address LHSTemp = CGF.CreateMemTemp(VD->getType());
4558*67e74705SXin Li CGF.emitOMPSimpleStore(
4559*67e74705SXin Li CGF.MakeAddrLValue(LHSTemp, VD->getType()), XRValue,
4560*67e74705SXin Li VD->getType().getNonReferenceType(), Loc);
4561*67e74705SXin Li return LHSTemp;
4562*67e74705SXin Li });
4563*67e74705SXin Li (void)PrivateScope.Privatize();
4564*67e74705SXin Li return CGF.EmitAnyExpr(UpExpr);
4565*67e74705SXin Li });
4566*67e74705SXin Li };
4567*67e74705SXin Li if ((*IPriv)->getType()->isArrayType()) {
4568*67e74705SXin Li // Emit atomic reduction for array section.
4569*67e74705SXin Li auto *RHSVar = cast<VarDecl>(cast<DeclRefExpr>(*IRHS)->getDecl());
4570*67e74705SXin Li EmitOMPAggregateReduction(CGF, (*IPriv)->getType(), VD, RHSVar,
4571*67e74705SXin Li AtomicRedGen, XExpr, EExpr, UpExpr);
4572*67e74705SXin Li } else
4573*67e74705SXin Li // Emit atomic reduction for array subscript or single variable.
4574*67e74705SXin Li AtomicRedGen(CGF, XExpr, EExpr, UpExpr);
4575*67e74705SXin Li } else {
4576*67e74705SXin Li // Emit as a critical region.
4577*67e74705SXin Li auto &&CritRedGen = [E, Loc](CodeGenFunction &CGF, const Expr *,
4578*67e74705SXin Li const Expr *, const Expr *) {
4579*67e74705SXin Li auto &RT = CGF.CGM.getOpenMPRuntime();
4580*67e74705SXin Li RT.emitCriticalRegion(
4581*67e74705SXin Li CGF, ".atomic_reduction",
4582*67e74705SXin Li [=](CodeGenFunction &CGF, PrePostActionTy &Action) {
4583*67e74705SXin Li Action.Enter(CGF);
4584*67e74705SXin Li emitReductionCombiner(CGF, E);
4585*67e74705SXin Li },
4586*67e74705SXin Li Loc);
4587*67e74705SXin Li };
4588*67e74705SXin Li if ((*IPriv)->getType()->isArrayType()) {
4589*67e74705SXin Li auto *LHSVar = cast<VarDecl>(cast<DeclRefExpr>(*ILHS)->getDecl());
4590*67e74705SXin Li auto *RHSVar = cast<VarDecl>(cast<DeclRefExpr>(*IRHS)->getDecl());
4591*67e74705SXin Li EmitOMPAggregateReduction(CGF, (*IPriv)->getType(), LHSVar, RHSVar,
4592*67e74705SXin Li CritRedGen);
4593*67e74705SXin Li } else
4594*67e74705SXin Li CritRedGen(CGF, nullptr, nullptr, nullptr);
4595*67e74705SXin Li }
4596*67e74705SXin Li ++ILHS;
4597*67e74705SXin Li ++IRHS;
4598*67e74705SXin Li ++IPriv;
4599*67e74705SXin Li }
4600*67e74705SXin Li };
4601*67e74705SXin Li RegionCodeGenTy AtomicRCG(AtomicCodeGen);
4602*67e74705SXin Li if (!WithNowait) {
4603*67e74705SXin Li // Add emission of __kmpc_end_reduce(<loc>, <gtid>, &<lock>);
4604*67e74705SXin Li llvm::Value *EndArgs[] = {
4605*67e74705SXin Li IdentTLoc, // ident_t *<loc>
4606*67e74705SXin Li ThreadId, // i32 <gtid>
4607*67e74705SXin Li Lock // kmp_critical_name *&<lock>
4608*67e74705SXin Li };
4609*67e74705SXin Li CommonActionTy Action(nullptr, llvm::None,
4610*67e74705SXin Li createRuntimeFunction(OMPRTL__kmpc_end_reduce),
4611*67e74705SXin Li EndArgs);
4612*67e74705SXin Li AtomicRCG.setAction(Action);
4613*67e74705SXin Li AtomicRCG(CGF);
4614*67e74705SXin Li } else
4615*67e74705SXin Li AtomicRCG(CGF);
4616*67e74705SXin Li
4617*67e74705SXin Li CGF.EmitBranch(DefaultBB);
4618*67e74705SXin Li CGF.EmitBlock(DefaultBB, /*IsFinished=*/true);
4619*67e74705SXin Li }
4620*67e74705SXin Li
emitTaskwaitCall(CodeGenFunction & CGF,SourceLocation Loc)4621*67e74705SXin Li void CGOpenMPRuntime::emitTaskwaitCall(CodeGenFunction &CGF,
4622*67e74705SXin Li SourceLocation Loc) {
4623*67e74705SXin Li if (!CGF.HaveInsertPoint())
4624*67e74705SXin Li return;
4625*67e74705SXin Li // Build call kmp_int32 __kmpc_omp_taskwait(ident_t *loc, kmp_int32
4626*67e74705SXin Li // global_tid);
4627*67e74705SXin Li llvm::Value *Args[] = {emitUpdateLocation(CGF, Loc), getThreadID(CGF, Loc)};
4628*67e74705SXin Li // Ignore return result until untied tasks are supported.
4629*67e74705SXin Li CGF.EmitRuntimeCall(createRuntimeFunction(OMPRTL__kmpc_omp_taskwait), Args);
4630*67e74705SXin Li if (auto *Region = dyn_cast_or_null<CGOpenMPRegionInfo>(CGF.CapturedStmtInfo))
4631*67e74705SXin Li Region->emitUntiedSwitch(CGF);
4632*67e74705SXin Li }
4633*67e74705SXin Li
emitInlinedDirective(CodeGenFunction & CGF,OpenMPDirectiveKind InnerKind,const RegionCodeGenTy & CodeGen,bool HasCancel)4634*67e74705SXin Li void CGOpenMPRuntime::emitInlinedDirective(CodeGenFunction &CGF,
4635*67e74705SXin Li OpenMPDirectiveKind InnerKind,
4636*67e74705SXin Li const RegionCodeGenTy &CodeGen,
4637*67e74705SXin Li bool HasCancel) {
4638*67e74705SXin Li if (!CGF.HaveInsertPoint())
4639*67e74705SXin Li return;
4640*67e74705SXin Li InlinedOpenMPRegionRAII Region(CGF, CodeGen, InnerKind, HasCancel);
4641*67e74705SXin Li CGF.CapturedStmtInfo->EmitBody(CGF, /*S=*/nullptr);
4642*67e74705SXin Li }
4643*67e74705SXin Li
4644*67e74705SXin Li namespace {
4645*67e74705SXin Li enum RTCancelKind {
4646*67e74705SXin Li CancelNoreq = 0,
4647*67e74705SXin Li CancelParallel = 1,
4648*67e74705SXin Li CancelLoop = 2,
4649*67e74705SXin Li CancelSections = 3,
4650*67e74705SXin Li CancelTaskgroup = 4
4651*67e74705SXin Li };
4652*67e74705SXin Li } // anonymous namespace
4653*67e74705SXin Li
getCancellationKind(OpenMPDirectiveKind CancelRegion)4654*67e74705SXin Li static RTCancelKind getCancellationKind(OpenMPDirectiveKind CancelRegion) {
4655*67e74705SXin Li RTCancelKind CancelKind = CancelNoreq;
4656*67e74705SXin Li if (CancelRegion == OMPD_parallel)
4657*67e74705SXin Li CancelKind = CancelParallel;
4658*67e74705SXin Li else if (CancelRegion == OMPD_for)
4659*67e74705SXin Li CancelKind = CancelLoop;
4660*67e74705SXin Li else if (CancelRegion == OMPD_sections)
4661*67e74705SXin Li CancelKind = CancelSections;
4662*67e74705SXin Li else {
4663*67e74705SXin Li assert(CancelRegion == OMPD_taskgroup);
4664*67e74705SXin Li CancelKind = CancelTaskgroup;
4665*67e74705SXin Li }
4666*67e74705SXin Li return CancelKind;
4667*67e74705SXin Li }
4668*67e74705SXin Li
emitCancellationPointCall(CodeGenFunction & CGF,SourceLocation Loc,OpenMPDirectiveKind CancelRegion)4669*67e74705SXin Li void CGOpenMPRuntime::emitCancellationPointCall(
4670*67e74705SXin Li CodeGenFunction &CGF, SourceLocation Loc,
4671*67e74705SXin Li OpenMPDirectiveKind CancelRegion) {
4672*67e74705SXin Li if (!CGF.HaveInsertPoint())
4673*67e74705SXin Li return;
4674*67e74705SXin Li // Build call kmp_int32 __kmpc_cancellationpoint(ident_t *loc, kmp_int32
4675*67e74705SXin Li // global_tid, kmp_int32 cncl_kind);
4676*67e74705SXin Li if (auto *OMPRegionInfo =
4677*67e74705SXin Li dyn_cast_or_null<CGOpenMPRegionInfo>(CGF.CapturedStmtInfo)) {
4678*67e74705SXin Li if (OMPRegionInfo->hasCancel()) {
4679*67e74705SXin Li llvm::Value *Args[] = {
4680*67e74705SXin Li emitUpdateLocation(CGF, Loc), getThreadID(CGF, Loc),
4681*67e74705SXin Li CGF.Builder.getInt32(getCancellationKind(CancelRegion))};
4682*67e74705SXin Li // Ignore return result until untied tasks are supported.
4683*67e74705SXin Li auto *Result = CGF.EmitRuntimeCall(
4684*67e74705SXin Li createRuntimeFunction(OMPRTL__kmpc_cancellationpoint), Args);
4685*67e74705SXin Li // if (__kmpc_cancellationpoint()) {
4686*67e74705SXin Li // __kmpc_cancel_barrier();
4687*67e74705SXin Li // exit from construct;
4688*67e74705SXin Li // }
4689*67e74705SXin Li auto *ExitBB = CGF.createBasicBlock(".cancel.exit");
4690*67e74705SXin Li auto *ContBB = CGF.createBasicBlock(".cancel.continue");
4691*67e74705SXin Li auto *Cmp = CGF.Builder.CreateIsNotNull(Result);
4692*67e74705SXin Li CGF.Builder.CreateCondBr(Cmp, ExitBB, ContBB);
4693*67e74705SXin Li CGF.EmitBlock(ExitBB);
4694*67e74705SXin Li // __kmpc_cancel_barrier();
4695*67e74705SXin Li emitBarrierCall(CGF, Loc, OMPD_unknown, /*EmitChecks=*/false);
4696*67e74705SXin Li // exit from construct;
4697*67e74705SXin Li auto CancelDest =
4698*67e74705SXin Li CGF.getOMPCancelDestination(OMPRegionInfo->getDirectiveKind());
4699*67e74705SXin Li CGF.EmitBranchThroughCleanup(CancelDest);
4700*67e74705SXin Li CGF.EmitBlock(ContBB, /*IsFinished=*/true);
4701*67e74705SXin Li }
4702*67e74705SXin Li }
4703*67e74705SXin Li }
4704*67e74705SXin Li
emitCancelCall(CodeGenFunction & CGF,SourceLocation Loc,const Expr * IfCond,OpenMPDirectiveKind CancelRegion)4705*67e74705SXin Li void CGOpenMPRuntime::emitCancelCall(CodeGenFunction &CGF, SourceLocation Loc,
4706*67e74705SXin Li const Expr *IfCond,
4707*67e74705SXin Li OpenMPDirectiveKind CancelRegion) {
4708*67e74705SXin Li if (!CGF.HaveInsertPoint())
4709*67e74705SXin Li return;
4710*67e74705SXin Li // Build call kmp_int32 __kmpc_cancel(ident_t *loc, kmp_int32 global_tid,
4711*67e74705SXin Li // kmp_int32 cncl_kind);
4712*67e74705SXin Li if (auto *OMPRegionInfo =
4713*67e74705SXin Li dyn_cast_or_null<CGOpenMPRegionInfo>(CGF.CapturedStmtInfo)) {
4714*67e74705SXin Li auto &&ThenGen = [Loc, CancelRegion, OMPRegionInfo](CodeGenFunction &CGF,
4715*67e74705SXin Li PrePostActionTy &) {
4716*67e74705SXin Li auto &RT = CGF.CGM.getOpenMPRuntime();
4717*67e74705SXin Li llvm::Value *Args[] = {
4718*67e74705SXin Li RT.emitUpdateLocation(CGF, Loc), RT.getThreadID(CGF, Loc),
4719*67e74705SXin Li CGF.Builder.getInt32(getCancellationKind(CancelRegion))};
4720*67e74705SXin Li // Ignore return result until untied tasks are supported.
4721*67e74705SXin Li auto *Result = CGF.EmitRuntimeCall(
4722*67e74705SXin Li RT.createRuntimeFunction(OMPRTL__kmpc_cancel), Args);
4723*67e74705SXin Li // if (__kmpc_cancel()) {
4724*67e74705SXin Li // __kmpc_cancel_barrier();
4725*67e74705SXin Li // exit from construct;
4726*67e74705SXin Li // }
4727*67e74705SXin Li auto *ExitBB = CGF.createBasicBlock(".cancel.exit");
4728*67e74705SXin Li auto *ContBB = CGF.createBasicBlock(".cancel.continue");
4729*67e74705SXin Li auto *Cmp = CGF.Builder.CreateIsNotNull(Result);
4730*67e74705SXin Li CGF.Builder.CreateCondBr(Cmp, ExitBB, ContBB);
4731*67e74705SXin Li CGF.EmitBlock(ExitBB);
4732*67e74705SXin Li // __kmpc_cancel_barrier();
4733*67e74705SXin Li RT.emitBarrierCall(CGF, Loc, OMPD_unknown, /*EmitChecks=*/false);
4734*67e74705SXin Li // exit from construct;
4735*67e74705SXin Li auto CancelDest =
4736*67e74705SXin Li CGF.getOMPCancelDestination(OMPRegionInfo->getDirectiveKind());
4737*67e74705SXin Li CGF.EmitBranchThroughCleanup(CancelDest);
4738*67e74705SXin Li CGF.EmitBlock(ContBB, /*IsFinished=*/true);
4739*67e74705SXin Li };
4740*67e74705SXin Li if (IfCond)
4741*67e74705SXin Li emitOMPIfClause(CGF, IfCond, ThenGen,
4742*67e74705SXin Li [](CodeGenFunction &, PrePostActionTy &) {});
4743*67e74705SXin Li else {
4744*67e74705SXin Li RegionCodeGenTy ThenRCG(ThenGen);
4745*67e74705SXin Li ThenRCG(CGF);
4746*67e74705SXin Li }
4747*67e74705SXin Li }
4748*67e74705SXin Li }
4749*67e74705SXin Li
4750*67e74705SXin Li /// \brief Obtain information that uniquely identifies a target entry. This
4751*67e74705SXin Li /// consists of the file and device IDs as well as line number associated with
4752*67e74705SXin Li /// the relevant entry source location.
getTargetEntryUniqueInfo(ASTContext & C,SourceLocation Loc,unsigned & DeviceID,unsigned & FileID,unsigned & LineNum)4753*67e74705SXin Li static void getTargetEntryUniqueInfo(ASTContext &C, SourceLocation Loc,
4754*67e74705SXin Li unsigned &DeviceID, unsigned &FileID,
4755*67e74705SXin Li unsigned &LineNum) {
4756*67e74705SXin Li
4757*67e74705SXin Li auto &SM = C.getSourceManager();
4758*67e74705SXin Li
4759*67e74705SXin Li // The loc should be always valid and have a file ID (the user cannot use
4760*67e74705SXin Li // #pragma directives in macros)
4761*67e74705SXin Li
4762*67e74705SXin Li assert(Loc.isValid() && "Source location is expected to be always valid.");
4763*67e74705SXin Li assert(Loc.isFileID() && "Source location is expected to refer to a file.");
4764*67e74705SXin Li
4765*67e74705SXin Li PresumedLoc PLoc = SM.getPresumedLoc(Loc);
4766*67e74705SXin Li assert(PLoc.isValid() && "Source location is expected to be always valid.");
4767*67e74705SXin Li
4768*67e74705SXin Li llvm::sys::fs::UniqueID ID;
4769*67e74705SXin Li if (llvm::sys::fs::getUniqueID(PLoc.getFilename(), ID))
4770*67e74705SXin Li llvm_unreachable("Source file with target region no longer exists!");
4771*67e74705SXin Li
4772*67e74705SXin Li DeviceID = ID.getDevice();
4773*67e74705SXin Li FileID = ID.getFile();
4774*67e74705SXin Li LineNum = PLoc.getLine();
4775*67e74705SXin Li }
4776*67e74705SXin Li
emitTargetOutlinedFunction(const OMPExecutableDirective & D,StringRef ParentName,llvm::Function * & OutlinedFn,llvm::Constant * & OutlinedFnID,bool IsOffloadEntry,const RegionCodeGenTy & CodeGen)4777*67e74705SXin Li void CGOpenMPRuntime::emitTargetOutlinedFunction(
4778*67e74705SXin Li const OMPExecutableDirective &D, StringRef ParentName,
4779*67e74705SXin Li llvm::Function *&OutlinedFn, llvm::Constant *&OutlinedFnID,
4780*67e74705SXin Li bool IsOffloadEntry, const RegionCodeGenTy &CodeGen) {
4781*67e74705SXin Li assert(!ParentName.empty() && "Invalid target region parent name!");
4782*67e74705SXin Li
4783*67e74705SXin Li emitTargetOutlinedFunctionHelper(D, ParentName, OutlinedFn, OutlinedFnID,
4784*67e74705SXin Li IsOffloadEntry, CodeGen);
4785*67e74705SXin Li }
4786*67e74705SXin Li
emitTargetOutlinedFunctionHelper(const OMPExecutableDirective & D,StringRef ParentName,llvm::Function * & OutlinedFn,llvm::Constant * & OutlinedFnID,bool IsOffloadEntry,const RegionCodeGenTy & CodeGen)4787*67e74705SXin Li void CGOpenMPRuntime::emitTargetOutlinedFunctionHelper(
4788*67e74705SXin Li const OMPExecutableDirective &D, StringRef ParentName,
4789*67e74705SXin Li llvm::Function *&OutlinedFn, llvm::Constant *&OutlinedFnID,
4790*67e74705SXin Li bool IsOffloadEntry, const RegionCodeGenTy &CodeGen) {
4791*67e74705SXin Li // Create a unique name for the entry function using the source location
4792*67e74705SXin Li // information of the current target region. The name will be something like:
4793*67e74705SXin Li //
4794*67e74705SXin Li // __omp_offloading_DD_FFFF_PP_lBB
4795*67e74705SXin Li //
4796*67e74705SXin Li // where DD_FFFF is an ID unique to the file (device and file IDs), PP is the
4797*67e74705SXin Li // mangled name of the function that encloses the target region and BB is the
4798*67e74705SXin Li // line number of the target region.
4799*67e74705SXin Li
4800*67e74705SXin Li unsigned DeviceID;
4801*67e74705SXin Li unsigned FileID;
4802*67e74705SXin Li unsigned Line;
4803*67e74705SXin Li getTargetEntryUniqueInfo(CGM.getContext(), D.getLocStart(), DeviceID, FileID,
4804*67e74705SXin Li Line);
4805*67e74705SXin Li SmallString<64> EntryFnName;
4806*67e74705SXin Li {
4807*67e74705SXin Li llvm::raw_svector_ostream OS(EntryFnName);
4808*67e74705SXin Li OS << "__omp_offloading" << llvm::format("_%x", DeviceID)
4809*67e74705SXin Li << llvm::format("_%x_", FileID) << ParentName << "_l" << Line;
4810*67e74705SXin Li }
4811*67e74705SXin Li
4812*67e74705SXin Li const CapturedStmt &CS = *cast<CapturedStmt>(D.getAssociatedStmt());
4813*67e74705SXin Li
4814*67e74705SXin Li CodeGenFunction CGF(CGM, true);
4815*67e74705SXin Li CGOpenMPTargetRegionInfo CGInfo(CS, CodeGen, EntryFnName);
4816*67e74705SXin Li CodeGenFunction::CGCapturedStmtRAII CapInfoRAII(CGF, &CGInfo);
4817*67e74705SXin Li
4818*67e74705SXin Li OutlinedFn = CGF.GenerateOpenMPCapturedStmtFunction(CS);
4819*67e74705SXin Li
4820*67e74705SXin Li // If this target outline function is not an offload entry, we don't need to
4821*67e74705SXin Li // register it.
4822*67e74705SXin Li if (!IsOffloadEntry)
4823*67e74705SXin Li return;
4824*67e74705SXin Li
4825*67e74705SXin Li // The target region ID is used by the runtime library to identify the current
4826*67e74705SXin Li // target region, so it only has to be unique and not necessarily point to
4827*67e74705SXin Li // anything. It could be the pointer to the outlined function that implements
4828*67e74705SXin Li // the target region, but we aren't using that so that the compiler doesn't
4829*67e74705SXin Li // need to keep that, and could therefore inline the host function if proven
4830*67e74705SXin Li // worthwhile during optimization. In the other hand, if emitting code for the
4831*67e74705SXin Li // device, the ID has to be the function address so that it can retrieved from
4832*67e74705SXin Li // the offloading entry and launched by the runtime library. We also mark the
4833*67e74705SXin Li // outlined function to have external linkage in case we are emitting code for
4834*67e74705SXin Li // the device, because these functions will be entry points to the device.
4835*67e74705SXin Li
4836*67e74705SXin Li if (CGM.getLangOpts().OpenMPIsDevice) {
4837*67e74705SXin Li OutlinedFnID = llvm::ConstantExpr::getBitCast(OutlinedFn, CGM.Int8PtrTy);
4838*67e74705SXin Li OutlinedFn->setLinkage(llvm::GlobalValue::ExternalLinkage);
4839*67e74705SXin Li } else
4840*67e74705SXin Li OutlinedFnID = new llvm::GlobalVariable(
4841*67e74705SXin Li CGM.getModule(), CGM.Int8Ty, /*isConstant=*/true,
4842*67e74705SXin Li llvm::GlobalValue::PrivateLinkage,
4843*67e74705SXin Li llvm::Constant::getNullValue(CGM.Int8Ty), ".omp_offload.region_id");
4844*67e74705SXin Li
4845*67e74705SXin Li // Register the information for the entry associated with this target region.
4846*67e74705SXin Li OffloadEntriesInfoManager.registerTargetRegionEntryInfo(
4847*67e74705SXin Li DeviceID, FileID, ParentName, Line, OutlinedFn, OutlinedFnID);
4848*67e74705SXin Li }
4849*67e74705SXin Li
4850*67e74705SXin Li /// discard all CompoundStmts intervening between two constructs
ignoreCompoundStmts(const Stmt * Body)4851*67e74705SXin Li static const Stmt *ignoreCompoundStmts(const Stmt *Body) {
4852*67e74705SXin Li while (auto *CS = dyn_cast_or_null<CompoundStmt>(Body))
4853*67e74705SXin Li Body = CS->body_front();
4854*67e74705SXin Li
4855*67e74705SXin Li return Body;
4856*67e74705SXin Li }
4857*67e74705SXin Li
4858*67e74705SXin Li /// \brief Emit the num_teams clause of an enclosed teams directive at the
4859*67e74705SXin Li /// target region scope. If there is no teams directive associated with the
4860*67e74705SXin Li /// target directive, or if there is no num_teams clause associated with the
4861*67e74705SXin Li /// enclosed teams directive, return nullptr.
4862*67e74705SXin Li static llvm::Value *
emitNumTeamsClauseForTargetDirective(CGOpenMPRuntime & OMPRuntime,CodeGenFunction & CGF,const OMPExecutableDirective & D)4863*67e74705SXin Li emitNumTeamsClauseForTargetDirective(CGOpenMPRuntime &OMPRuntime,
4864*67e74705SXin Li CodeGenFunction &CGF,
4865*67e74705SXin Li const OMPExecutableDirective &D) {
4866*67e74705SXin Li
4867*67e74705SXin Li assert(!CGF.getLangOpts().OpenMPIsDevice && "Clauses associated with the "
4868*67e74705SXin Li "teams directive expected to be "
4869*67e74705SXin Li "emitted only for the host!");
4870*67e74705SXin Li
4871*67e74705SXin Li // FIXME: For the moment we do not support combined directives with target and
4872*67e74705SXin Li // teams, so we do not expect to get any num_teams clause in the provided
4873*67e74705SXin Li // directive. Once we support that, this assertion can be replaced by the
4874*67e74705SXin Li // actual emission of the clause expression.
4875*67e74705SXin Li assert(D.getSingleClause<OMPNumTeamsClause>() == nullptr &&
4876*67e74705SXin Li "Not expecting clause in directive.");
4877*67e74705SXin Li
4878*67e74705SXin Li // If the current target region has a teams region enclosed, we need to get
4879*67e74705SXin Li // the number of teams to pass to the runtime function call. This is done
4880*67e74705SXin Li // by generating the expression in a inlined region. This is required because
4881*67e74705SXin Li // the expression is captured in the enclosing target environment when the
4882*67e74705SXin Li // teams directive is not combined with target.
4883*67e74705SXin Li
4884*67e74705SXin Li const CapturedStmt &CS = *cast<CapturedStmt>(D.getAssociatedStmt());
4885*67e74705SXin Li
4886*67e74705SXin Li // FIXME: Accommodate other combined directives with teams when they become
4887*67e74705SXin Li // available.
4888*67e74705SXin Li if (auto *TeamsDir = dyn_cast_or_null<OMPTeamsDirective>(
4889*67e74705SXin Li ignoreCompoundStmts(CS.getCapturedStmt()))) {
4890*67e74705SXin Li if (auto *NTE = TeamsDir->getSingleClause<OMPNumTeamsClause>()) {
4891*67e74705SXin Li CGOpenMPInnerExprInfo CGInfo(CGF, CS);
4892*67e74705SXin Li CodeGenFunction::CGCapturedStmtRAII CapInfoRAII(CGF, &CGInfo);
4893*67e74705SXin Li llvm::Value *NumTeams = CGF.EmitScalarExpr(NTE->getNumTeams());
4894*67e74705SXin Li return CGF.Builder.CreateIntCast(NumTeams, CGF.Int32Ty,
4895*67e74705SXin Li /*IsSigned=*/true);
4896*67e74705SXin Li }
4897*67e74705SXin Li
4898*67e74705SXin Li // If we have an enclosed teams directive but no num_teams clause we use
4899*67e74705SXin Li // the default value 0.
4900*67e74705SXin Li return CGF.Builder.getInt32(0);
4901*67e74705SXin Li }
4902*67e74705SXin Li
4903*67e74705SXin Li // No teams associated with the directive.
4904*67e74705SXin Li return nullptr;
4905*67e74705SXin Li }
4906*67e74705SXin Li
4907*67e74705SXin Li /// \brief Emit the thread_limit clause of an enclosed teams directive at the
4908*67e74705SXin Li /// target region scope. If there is no teams directive associated with the
4909*67e74705SXin Li /// target directive, or if there is no thread_limit clause associated with the
4910*67e74705SXin Li /// enclosed teams directive, return nullptr.
4911*67e74705SXin Li static llvm::Value *
emitThreadLimitClauseForTargetDirective(CGOpenMPRuntime & OMPRuntime,CodeGenFunction & CGF,const OMPExecutableDirective & D)4912*67e74705SXin Li emitThreadLimitClauseForTargetDirective(CGOpenMPRuntime &OMPRuntime,
4913*67e74705SXin Li CodeGenFunction &CGF,
4914*67e74705SXin Li const OMPExecutableDirective &D) {
4915*67e74705SXin Li
4916*67e74705SXin Li assert(!CGF.getLangOpts().OpenMPIsDevice && "Clauses associated with the "
4917*67e74705SXin Li "teams directive expected to be "
4918*67e74705SXin Li "emitted only for the host!");
4919*67e74705SXin Li
4920*67e74705SXin Li // FIXME: For the moment we do not support combined directives with target and
4921*67e74705SXin Li // teams, so we do not expect to get any thread_limit clause in the provided
4922*67e74705SXin Li // directive. Once we support that, this assertion can be replaced by the
4923*67e74705SXin Li // actual emission of the clause expression.
4924*67e74705SXin Li assert(D.getSingleClause<OMPThreadLimitClause>() == nullptr &&
4925*67e74705SXin Li "Not expecting clause in directive.");
4926*67e74705SXin Li
4927*67e74705SXin Li // If the current target region has a teams region enclosed, we need to get
4928*67e74705SXin Li // the thread limit to pass to the runtime function call. This is done
4929*67e74705SXin Li // by generating the expression in a inlined region. This is required because
4930*67e74705SXin Li // the expression is captured in the enclosing target environment when the
4931*67e74705SXin Li // teams directive is not combined with target.
4932*67e74705SXin Li
4933*67e74705SXin Li const CapturedStmt &CS = *cast<CapturedStmt>(D.getAssociatedStmt());
4934*67e74705SXin Li
4935*67e74705SXin Li // FIXME: Accommodate other combined directives with teams when they become
4936*67e74705SXin Li // available.
4937*67e74705SXin Li if (auto *TeamsDir = dyn_cast_or_null<OMPTeamsDirective>(
4938*67e74705SXin Li ignoreCompoundStmts(CS.getCapturedStmt()))) {
4939*67e74705SXin Li if (auto *TLE = TeamsDir->getSingleClause<OMPThreadLimitClause>()) {
4940*67e74705SXin Li CGOpenMPInnerExprInfo CGInfo(CGF, CS);
4941*67e74705SXin Li CodeGenFunction::CGCapturedStmtRAII CapInfoRAII(CGF, &CGInfo);
4942*67e74705SXin Li llvm::Value *ThreadLimit = CGF.EmitScalarExpr(TLE->getThreadLimit());
4943*67e74705SXin Li return CGF.Builder.CreateIntCast(ThreadLimit, CGF.Int32Ty,
4944*67e74705SXin Li /*IsSigned=*/true);
4945*67e74705SXin Li }
4946*67e74705SXin Li
4947*67e74705SXin Li // If we have an enclosed teams directive but no thread_limit clause we use
4948*67e74705SXin Li // the default value 0.
4949*67e74705SXin Li return CGF.Builder.getInt32(0);
4950*67e74705SXin Li }
4951*67e74705SXin Li
4952*67e74705SXin Li // No teams associated with the directive.
4953*67e74705SXin Li return nullptr;
4954*67e74705SXin Li }
4955*67e74705SXin Li
4956*67e74705SXin Li namespace {
4957*67e74705SXin Li // \brief Utility to handle information from clauses associated with a given
4958*67e74705SXin Li // construct that use mappable expressions (e.g. 'map' clause, 'to' clause).
4959*67e74705SXin Li // It provides a convenient interface to obtain the information and generate
4960*67e74705SXin Li // code for that information.
4961*67e74705SXin Li class MappableExprsHandler {
4962*67e74705SXin Li public:
4963*67e74705SXin Li /// \brief Values for bit flags used to specify the mapping type for
4964*67e74705SXin Li /// offloading.
4965*67e74705SXin Li enum OpenMPOffloadMappingFlags {
4966*67e74705SXin Li /// \brief Allocate memory on the device and move data from host to device.
4967*67e74705SXin Li OMP_MAP_TO = 0x01,
4968*67e74705SXin Li /// \brief Allocate memory on the device and move data from device to host.
4969*67e74705SXin Li OMP_MAP_FROM = 0x02,
4970*67e74705SXin Li /// \brief Always perform the requested mapping action on the element, even
4971*67e74705SXin Li /// if it was already mapped before.
4972*67e74705SXin Li OMP_MAP_ALWAYS = 0x04,
4973*67e74705SXin Li /// \brief Delete the element from the device environment, ignoring the
4974*67e74705SXin Li /// current reference count associated with the element.
4975*67e74705SXin Li OMP_MAP_DELETE = 0x08,
4976*67e74705SXin Li /// \brief The element being mapped is a pointer, therefore the pointee
4977*67e74705SXin Li /// should be mapped as well.
4978*67e74705SXin Li OMP_MAP_IS_PTR = 0x10,
4979*67e74705SXin Li /// \brief This flags signals that an argument is the first one relating to
4980*67e74705SXin Li /// a map/private clause expression. For some cases a single
4981*67e74705SXin Li /// map/privatization results in multiple arguments passed to the runtime
4982*67e74705SXin Li /// library.
4983*67e74705SXin Li OMP_MAP_FIRST_REF = 0x20,
4984*67e74705SXin Li /// \brief This flag signals that the reference being passed is a pointer to
4985*67e74705SXin Li /// private data.
4986*67e74705SXin Li OMP_MAP_PRIVATE_PTR = 0x80,
4987*67e74705SXin Li /// \brief Pass the element to the device by value.
4988*67e74705SXin Li OMP_MAP_PRIVATE_VAL = 0x100,
4989*67e74705SXin Li };
4990*67e74705SXin Li
4991*67e74705SXin Li typedef SmallVector<llvm::Value *, 16> MapValuesArrayTy;
4992*67e74705SXin Li typedef SmallVector<unsigned, 16> MapFlagsArrayTy;
4993*67e74705SXin Li
4994*67e74705SXin Li private:
4995*67e74705SXin Li /// \brief Directive from where the map clauses were extracted.
4996*67e74705SXin Li const OMPExecutableDirective &Directive;
4997*67e74705SXin Li
4998*67e74705SXin Li /// \brief Function the directive is being generated for.
4999*67e74705SXin Li CodeGenFunction &CGF;
5000*67e74705SXin Li
5001*67e74705SXin Li /// \brief Set of all first private variables in the current directive.
5002*67e74705SXin Li llvm::SmallPtrSet<const VarDecl *, 8> FirstPrivateDecls;
5003*67e74705SXin Li
getExprTypeSize(const Expr * E) const5004*67e74705SXin Li llvm::Value *getExprTypeSize(const Expr *E) const {
5005*67e74705SXin Li auto ExprTy = E->getType().getCanonicalType();
5006*67e74705SXin Li
5007*67e74705SXin Li // Reference types are ignored for mapping purposes.
5008*67e74705SXin Li if (auto *RefTy = ExprTy->getAs<ReferenceType>())
5009*67e74705SXin Li ExprTy = RefTy->getPointeeType().getCanonicalType();
5010*67e74705SXin Li
5011*67e74705SXin Li // Given that an array section is considered a built-in type, we need to
5012*67e74705SXin Li // do the calculation based on the length of the section instead of relying
5013*67e74705SXin Li // on CGF.getTypeSize(E->getType()).
5014*67e74705SXin Li if (const auto *OAE = dyn_cast<OMPArraySectionExpr>(E)) {
5015*67e74705SXin Li QualType BaseTy = OMPArraySectionExpr::getBaseOriginalType(
5016*67e74705SXin Li OAE->getBase()->IgnoreParenImpCasts())
5017*67e74705SXin Li .getCanonicalType();
5018*67e74705SXin Li
5019*67e74705SXin Li // If there is no length associated with the expression, that means we
5020*67e74705SXin Li // are using the whole length of the base.
5021*67e74705SXin Li if (!OAE->getLength() && OAE->getColonLoc().isValid())
5022*67e74705SXin Li return CGF.getTypeSize(BaseTy);
5023*67e74705SXin Li
5024*67e74705SXin Li llvm::Value *ElemSize;
5025*67e74705SXin Li if (auto *PTy = BaseTy->getAs<PointerType>())
5026*67e74705SXin Li ElemSize = CGF.getTypeSize(PTy->getPointeeType().getCanonicalType());
5027*67e74705SXin Li else {
5028*67e74705SXin Li auto *ATy = cast<ArrayType>(BaseTy.getTypePtr());
5029*67e74705SXin Li assert(ATy && "Expecting array type if not a pointer type.");
5030*67e74705SXin Li ElemSize = CGF.getTypeSize(ATy->getElementType().getCanonicalType());
5031*67e74705SXin Li }
5032*67e74705SXin Li
5033*67e74705SXin Li // If we don't have a length at this point, that is because we have an
5034*67e74705SXin Li // array section with a single element.
5035*67e74705SXin Li if (!OAE->getLength())
5036*67e74705SXin Li return ElemSize;
5037*67e74705SXin Li
5038*67e74705SXin Li auto *LengthVal = CGF.EmitScalarExpr(OAE->getLength());
5039*67e74705SXin Li LengthVal =
5040*67e74705SXin Li CGF.Builder.CreateIntCast(LengthVal, CGF.SizeTy, /*isSigned=*/false);
5041*67e74705SXin Li return CGF.Builder.CreateNUWMul(LengthVal, ElemSize);
5042*67e74705SXin Li }
5043*67e74705SXin Li return CGF.getTypeSize(ExprTy);
5044*67e74705SXin Li }
5045*67e74705SXin Li
5046*67e74705SXin Li /// \brief Return the corresponding bits for a given map clause modifier. Add
5047*67e74705SXin Li /// a flag marking the map as a pointer if requested. Add a flag marking the
5048*67e74705SXin Li /// map as the first one of a series of maps that relate to the same map
5049*67e74705SXin Li /// expression.
getMapTypeBits(OpenMPMapClauseKind MapType,OpenMPMapClauseKind MapTypeModifier,bool AddPtrFlag,bool AddIsFirstFlag) const5050*67e74705SXin Li unsigned getMapTypeBits(OpenMPMapClauseKind MapType,
5051*67e74705SXin Li OpenMPMapClauseKind MapTypeModifier, bool AddPtrFlag,
5052*67e74705SXin Li bool AddIsFirstFlag) const {
5053*67e74705SXin Li unsigned Bits = 0u;
5054*67e74705SXin Li switch (MapType) {
5055*67e74705SXin Li case OMPC_MAP_alloc:
5056*67e74705SXin Li case OMPC_MAP_release:
5057*67e74705SXin Li // alloc and release is the default behavior in the runtime library, i.e.
5058*67e74705SXin Li // if we don't pass any bits alloc/release that is what the runtime is
5059*67e74705SXin Li // going to do. Therefore, we don't need to signal anything for these two
5060*67e74705SXin Li // type modifiers.
5061*67e74705SXin Li break;
5062*67e74705SXin Li case OMPC_MAP_to:
5063*67e74705SXin Li Bits = OMP_MAP_TO;
5064*67e74705SXin Li break;
5065*67e74705SXin Li case OMPC_MAP_from:
5066*67e74705SXin Li Bits = OMP_MAP_FROM;
5067*67e74705SXin Li break;
5068*67e74705SXin Li case OMPC_MAP_tofrom:
5069*67e74705SXin Li Bits = OMP_MAP_TO | OMP_MAP_FROM;
5070*67e74705SXin Li break;
5071*67e74705SXin Li case OMPC_MAP_delete:
5072*67e74705SXin Li Bits = OMP_MAP_DELETE;
5073*67e74705SXin Li break;
5074*67e74705SXin Li default:
5075*67e74705SXin Li llvm_unreachable("Unexpected map type!");
5076*67e74705SXin Li break;
5077*67e74705SXin Li }
5078*67e74705SXin Li if (AddPtrFlag)
5079*67e74705SXin Li Bits |= OMP_MAP_IS_PTR;
5080*67e74705SXin Li if (AddIsFirstFlag)
5081*67e74705SXin Li Bits |= OMP_MAP_FIRST_REF;
5082*67e74705SXin Li if (MapTypeModifier == OMPC_MAP_always)
5083*67e74705SXin Li Bits |= OMP_MAP_ALWAYS;
5084*67e74705SXin Li return Bits;
5085*67e74705SXin Li }
5086*67e74705SXin Li
5087*67e74705SXin Li /// \brief Return true if the provided expression is a final array section. A
5088*67e74705SXin Li /// final array section, is one whose length can't be proved to be one.
isFinalArraySectionExpression(const Expr * E) const5089*67e74705SXin Li bool isFinalArraySectionExpression(const Expr *E) const {
5090*67e74705SXin Li auto *OASE = dyn_cast<OMPArraySectionExpr>(E);
5091*67e74705SXin Li
5092*67e74705SXin Li // It is not an array section and therefore not a unity-size one.
5093*67e74705SXin Li if (!OASE)
5094*67e74705SXin Li return false;
5095*67e74705SXin Li
5096*67e74705SXin Li // An array section with no colon always refer to a single element.
5097*67e74705SXin Li if (OASE->getColonLoc().isInvalid())
5098*67e74705SXin Li return false;
5099*67e74705SXin Li
5100*67e74705SXin Li auto *Length = OASE->getLength();
5101*67e74705SXin Li
5102*67e74705SXin Li // If we don't have a length we have to check if the array has size 1
5103*67e74705SXin Li // for this dimension. Also, we should always expect a length if the
5104*67e74705SXin Li // base type is pointer.
5105*67e74705SXin Li if (!Length) {
5106*67e74705SXin Li auto BaseQTy = OMPArraySectionExpr::getBaseOriginalType(
5107*67e74705SXin Li OASE->getBase()->IgnoreParenImpCasts())
5108*67e74705SXin Li .getCanonicalType();
5109*67e74705SXin Li if (auto *ATy = dyn_cast<ConstantArrayType>(BaseQTy.getTypePtr()))
5110*67e74705SXin Li return ATy->getSize().getSExtValue() != 1;
5111*67e74705SXin Li // If we don't have a constant dimension length, we have to consider
5112*67e74705SXin Li // the current section as having any size, so it is not necessarily
5113*67e74705SXin Li // unitary. If it happen to be unity size, that's user fault.
5114*67e74705SXin Li return true;
5115*67e74705SXin Li }
5116*67e74705SXin Li
5117*67e74705SXin Li // Check if the length evaluates to 1.
5118*67e74705SXin Li llvm::APSInt ConstLength;
5119*67e74705SXin Li if (!Length->EvaluateAsInt(ConstLength, CGF.getContext()))
5120*67e74705SXin Li return true; // Can have more that size 1.
5121*67e74705SXin Li
5122*67e74705SXin Li return ConstLength.getSExtValue() != 1;
5123*67e74705SXin Li }
5124*67e74705SXin Li
5125*67e74705SXin Li /// \brief Generate the base pointers, section pointers, sizes and map type
5126*67e74705SXin Li /// bits for the provided map type, map modifier, and expression components.
5127*67e74705SXin Li /// \a IsFirstComponent should be set to true if the provided set of
5128*67e74705SXin Li /// components is the first associated with a capture.
generateInfoForComponentList(OpenMPMapClauseKind MapType,OpenMPMapClauseKind MapTypeModifier,OMPClauseMappableExprCommon::MappableExprComponentListRef Components,MapValuesArrayTy & BasePointers,MapValuesArrayTy & Pointers,MapValuesArrayTy & Sizes,MapFlagsArrayTy & Types,bool IsFirstComponentList) const5129*67e74705SXin Li void generateInfoForComponentList(
5130*67e74705SXin Li OpenMPMapClauseKind MapType, OpenMPMapClauseKind MapTypeModifier,
5131*67e74705SXin Li OMPClauseMappableExprCommon::MappableExprComponentListRef Components,
5132*67e74705SXin Li MapValuesArrayTy &BasePointers, MapValuesArrayTy &Pointers,
5133*67e74705SXin Li MapValuesArrayTy &Sizes, MapFlagsArrayTy &Types,
5134*67e74705SXin Li bool IsFirstComponentList) const {
5135*67e74705SXin Li
5136*67e74705SXin Li // The following summarizes what has to be generated for each map and the
5137*67e74705SXin Li // types bellow. The generated information is expressed in this order:
5138*67e74705SXin Li // base pointer, section pointer, size, flags
5139*67e74705SXin Li // (to add to the ones that come from the map type and modifier).
5140*67e74705SXin Li //
5141*67e74705SXin Li // double d;
5142*67e74705SXin Li // int i[100];
5143*67e74705SXin Li // float *p;
5144*67e74705SXin Li //
5145*67e74705SXin Li // struct S1 {
5146*67e74705SXin Li // int i;
5147*67e74705SXin Li // float f[50];
5148*67e74705SXin Li // }
5149*67e74705SXin Li // struct S2 {
5150*67e74705SXin Li // int i;
5151*67e74705SXin Li // float f[50];
5152*67e74705SXin Li // S1 s;
5153*67e74705SXin Li // double *p;
5154*67e74705SXin Li // struct S2 *ps;
5155*67e74705SXin Li // }
5156*67e74705SXin Li // S2 s;
5157*67e74705SXin Li // S2 *ps;
5158*67e74705SXin Li //
5159*67e74705SXin Li // map(d)
5160*67e74705SXin Li // &d, &d, sizeof(double), noflags
5161*67e74705SXin Li //
5162*67e74705SXin Li // map(i)
5163*67e74705SXin Li // &i, &i, 100*sizeof(int), noflags
5164*67e74705SXin Li //
5165*67e74705SXin Li // map(i[1:23])
5166*67e74705SXin Li // &i(=&i[0]), &i[1], 23*sizeof(int), noflags
5167*67e74705SXin Li //
5168*67e74705SXin Li // map(p)
5169*67e74705SXin Li // &p, &p, sizeof(float*), noflags
5170*67e74705SXin Li //
5171*67e74705SXin Li // map(p[1:24])
5172*67e74705SXin Li // p, &p[1], 24*sizeof(float), noflags
5173*67e74705SXin Li //
5174*67e74705SXin Li // map(s)
5175*67e74705SXin Li // &s, &s, sizeof(S2), noflags
5176*67e74705SXin Li //
5177*67e74705SXin Li // map(s.i)
5178*67e74705SXin Li // &s, &(s.i), sizeof(int), noflags
5179*67e74705SXin Li //
5180*67e74705SXin Li // map(s.s.f)
5181*67e74705SXin Li // &s, &(s.i.f), 50*sizeof(int), noflags
5182*67e74705SXin Li //
5183*67e74705SXin Li // map(s.p)
5184*67e74705SXin Li // &s, &(s.p), sizeof(double*), noflags
5185*67e74705SXin Li //
5186*67e74705SXin Li // map(s.p[:22], s.a s.b)
5187*67e74705SXin Li // &s, &(s.p), sizeof(double*), noflags
5188*67e74705SXin Li // &(s.p), &(s.p[0]), 22*sizeof(double), ptr_flag + extra_flag
5189*67e74705SXin Li //
5190*67e74705SXin Li // map(s.ps)
5191*67e74705SXin Li // &s, &(s.ps), sizeof(S2*), noflags
5192*67e74705SXin Li //
5193*67e74705SXin Li // map(s.ps->s.i)
5194*67e74705SXin Li // &s, &(s.ps), sizeof(S2*), noflags
5195*67e74705SXin Li // &(s.ps), &(s.ps->s.i), sizeof(int), ptr_flag + extra_flag
5196*67e74705SXin Li //
5197*67e74705SXin Li // map(s.ps->ps)
5198*67e74705SXin Li // &s, &(s.ps), sizeof(S2*), noflags
5199*67e74705SXin Li // &(s.ps), &(s.ps->ps), sizeof(S2*), ptr_flag + extra_flag
5200*67e74705SXin Li //
5201*67e74705SXin Li // map(s.ps->ps->ps)
5202*67e74705SXin Li // &s, &(s.ps), sizeof(S2*), noflags
5203*67e74705SXin Li // &(s.ps), &(s.ps->ps), sizeof(S2*), ptr_flag + extra_flag
5204*67e74705SXin Li // &(s.ps->ps), &(s.ps->ps->ps), sizeof(S2*), ptr_flag + extra_flag
5205*67e74705SXin Li //
5206*67e74705SXin Li // map(s.ps->ps->s.f[:22])
5207*67e74705SXin Li // &s, &(s.ps), sizeof(S2*), noflags
5208*67e74705SXin Li // &(s.ps), &(s.ps->ps), sizeof(S2*), ptr_flag + extra_flag
5209*67e74705SXin Li // &(s.ps->ps), &(s.ps->ps->s.f[0]), 22*sizeof(float), ptr_flag + extra_flag
5210*67e74705SXin Li //
5211*67e74705SXin Li // map(ps)
5212*67e74705SXin Li // &ps, &ps, sizeof(S2*), noflags
5213*67e74705SXin Li //
5214*67e74705SXin Li // map(ps->i)
5215*67e74705SXin Li // ps, &(ps->i), sizeof(int), noflags
5216*67e74705SXin Li //
5217*67e74705SXin Li // map(ps->s.f)
5218*67e74705SXin Li // ps, &(ps->s.f[0]), 50*sizeof(float), noflags
5219*67e74705SXin Li //
5220*67e74705SXin Li // map(ps->p)
5221*67e74705SXin Li // ps, &(ps->p), sizeof(double*), noflags
5222*67e74705SXin Li //
5223*67e74705SXin Li // map(ps->p[:22])
5224*67e74705SXin Li // ps, &(ps->p), sizeof(double*), noflags
5225*67e74705SXin Li // &(ps->p), &(ps->p[0]), 22*sizeof(double), ptr_flag + extra_flag
5226*67e74705SXin Li //
5227*67e74705SXin Li // map(ps->ps)
5228*67e74705SXin Li // ps, &(ps->ps), sizeof(S2*), noflags
5229*67e74705SXin Li //
5230*67e74705SXin Li // map(ps->ps->s.i)
5231*67e74705SXin Li // ps, &(ps->ps), sizeof(S2*), noflags
5232*67e74705SXin Li // &(ps->ps), &(ps->ps->s.i), sizeof(int), ptr_flag + extra_flag
5233*67e74705SXin Li //
5234*67e74705SXin Li // map(ps->ps->ps)
5235*67e74705SXin Li // ps, &(ps->ps), sizeof(S2*), noflags
5236*67e74705SXin Li // &(ps->ps), &(ps->ps->ps), sizeof(S2*), ptr_flag + extra_flag
5237*67e74705SXin Li //
5238*67e74705SXin Li // map(ps->ps->ps->ps)
5239*67e74705SXin Li // ps, &(ps->ps), sizeof(S2*), noflags
5240*67e74705SXin Li // &(ps->ps), &(ps->ps->ps), sizeof(S2*), ptr_flag + extra_flag
5241*67e74705SXin Li // &(ps->ps->ps), &(ps->ps->ps->ps), sizeof(S2*), ptr_flag + extra_flag
5242*67e74705SXin Li //
5243*67e74705SXin Li // map(ps->ps->ps->s.f[:22])
5244*67e74705SXin Li // ps, &(ps->ps), sizeof(S2*), noflags
5245*67e74705SXin Li // &(ps->ps), &(ps->ps->ps), sizeof(S2*), ptr_flag + extra_flag
5246*67e74705SXin Li // &(ps->ps->ps), &(ps->ps->ps->s.f[0]), 22*sizeof(float), ptr_flag +
5247*67e74705SXin Li // extra_flag
5248*67e74705SXin Li
5249*67e74705SXin Li // Track if the map information being generated is the first for a capture.
5250*67e74705SXin Li bool IsCaptureFirstInfo = IsFirstComponentList;
5251*67e74705SXin Li
5252*67e74705SXin Li // Scan the components from the base to the complete expression.
5253*67e74705SXin Li auto CI = Components.rbegin();
5254*67e74705SXin Li auto CE = Components.rend();
5255*67e74705SXin Li auto I = CI;
5256*67e74705SXin Li
5257*67e74705SXin Li // Track if the map information being generated is the first for a list of
5258*67e74705SXin Li // components.
5259*67e74705SXin Li bool IsExpressionFirstInfo = true;
5260*67e74705SXin Li llvm::Value *BP = nullptr;
5261*67e74705SXin Li
5262*67e74705SXin Li if (auto *ME = dyn_cast<MemberExpr>(I->getAssociatedExpression())) {
5263*67e74705SXin Li // The base is the 'this' pointer. The content of the pointer is going
5264*67e74705SXin Li // to be the base of the field being mapped.
5265*67e74705SXin Li BP = CGF.EmitScalarExpr(ME->getBase());
5266*67e74705SXin Li } else {
5267*67e74705SXin Li // The base is the reference to the variable.
5268*67e74705SXin Li // BP = &Var.
5269*67e74705SXin Li BP = CGF.EmitLValue(cast<DeclRefExpr>(I->getAssociatedExpression()))
5270*67e74705SXin Li .getPointer();
5271*67e74705SXin Li
5272*67e74705SXin Li // If the variable is a pointer and is being dereferenced (i.e. is not
5273*67e74705SXin Li // the last component), the base has to be the pointer itself, not its
5274*67e74705SXin Li // reference.
5275*67e74705SXin Li if (I->getAssociatedDeclaration()->getType()->isAnyPointerType() &&
5276*67e74705SXin Li std::next(I) != CE) {
5277*67e74705SXin Li auto PtrAddr = CGF.MakeNaturalAlignAddrLValue(
5278*67e74705SXin Li BP, I->getAssociatedDeclaration()->getType());
5279*67e74705SXin Li BP = CGF.EmitLoadOfPointerLValue(PtrAddr.getAddress(),
5280*67e74705SXin Li I->getAssociatedDeclaration()
5281*67e74705SXin Li ->getType()
5282*67e74705SXin Li ->getAs<PointerType>())
5283*67e74705SXin Li .getPointer();
5284*67e74705SXin Li
5285*67e74705SXin Li // We do not need to generate individual map information for the
5286*67e74705SXin Li // pointer, it can be associated with the combined storage.
5287*67e74705SXin Li ++I;
5288*67e74705SXin Li }
5289*67e74705SXin Li }
5290*67e74705SXin Li
5291*67e74705SXin Li for (; I != CE; ++I) {
5292*67e74705SXin Li auto Next = std::next(I);
5293*67e74705SXin Li
5294*67e74705SXin Li // We need to generate the addresses and sizes if this is the last
5295*67e74705SXin Li // component, if the component is a pointer or if it is an array section
5296*67e74705SXin Li // whose length can't be proved to be one. If this is a pointer, it
5297*67e74705SXin Li // becomes the base address for the following components.
5298*67e74705SXin Li
5299*67e74705SXin Li // A final array section, is one whose length can't be proved to be one.
5300*67e74705SXin Li bool IsFinalArraySection =
5301*67e74705SXin Li isFinalArraySectionExpression(I->getAssociatedExpression());
5302*67e74705SXin Li
5303*67e74705SXin Li // Get information on whether the element is a pointer. Have to do a
5304*67e74705SXin Li // special treatment for array sections given that they are built-in
5305*67e74705SXin Li // types.
5306*67e74705SXin Li const auto *OASE =
5307*67e74705SXin Li dyn_cast<OMPArraySectionExpr>(I->getAssociatedExpression());
5308*67e74705SXin Li bool IsPointer =
5309*67e74705SXin Li (OASE &&
5310*67e74705SXin Li OMPArraySectionExpr::getBaseOriginalType(OASE)
5311*67e74705SXin Li .getCanonicalType()
5312*67e74705SXin Li ->isAnyPointerType()) ||
5313*67e74705SXin Li I->getAssociatedExpression()->getType()->isAnyPointerType();
5314*67e74705SXin Li
5315*67e74705SXin Li if (Next == CE || IsPointer || IsFinalArraySection) {
5316*67e74705SXin Li
5317*67e74705SXin Li // If this is not the last component, we expect the pointer to be
5318*67e74705SXin Li // associated with an array expression or member expression.
5319*67e74705SXin Li assert((Next == CE ||
5320*67e74705SXin Li isa<MemberExpr>(Next->getAssociatedExpression()) ||
5321*67e74705SXin Li isa<ArraySubscriptExpr>(Next->getAssociatedExpression()) ||
5322*67e74705SXin Li isa<OMPArraySectionExpr>(Next->getAssociatedExpression())) &&
5323*67e74705SXin Li "Unexpected expression");
5324*67e74705SXin Li
5325*67e74705SXin Li // Save the base we are currently using.
5326*67e74705SXin Li BasePointers.push_back(BP);
5327*67e74705SXin Li
5328*67e74705SXin Li auto *LB = CGF.EmitLValue(I->getAssociatedExpression()).getPointer();
5329*67e74705SXin Li auto *Size = getExprTypeSize(I->getAssociatedExpression());
5330*67e74705SXin Li
5331*67e74705SXin Li Pointers.push_back(LB);
5332*67e74705SXin Li Sizes.push_back(Size);
5333*67e74705SXin Li // We need to add a pointer flag for each map that comes from the
5334*67e74705SXin Li // same expression except for the first one. We also need to signal
5335*67e74705SXin Li // this map is the first one that relates with the current capture
5336*67e74705SXin Li // (there is a set of entries for each capture).
5337*67e74705SXin Li Types.push_back(getMapTypeBits(MapType, MapTypeModifier,
5338*67e74705SXin Li !IsExpressionFirstInfo,
5339*67e74705SXin Li IsCaptureFirstInfo));
5340*67e74705SXin Li
5341*67e74705SXin Li // If we have a final array section, we are done with this expression.
5342*67e74705SXin Li if (IsFinalArraySection)
5343*67e74705SXin Li break;
5344*67e74705SXin Li
5345*67e74705SXin Li // The pointer becomes the base for the next element.
5346*67e74705SXin Li if (Next != CE)
5347*67e74705SXin Li BP = LB;
5348*67e74705SXin Li
5349*67e74705SXin Li IsExpressionFirstInfo = false;
5350*67e74705SXin Li IsCaptureFirstInfo = false;
5351*67e74705SXin Li continue;
5352*67e74705SXin Li }
5353*67e74705SXin Li }
5354*67e74705SXin Li }
5355*67e74705SXin Li
5356*67e74705SXin Li /// \brief Return the adjusted map modifiers if the declaration a capture
5357*67e74705SXin Li /// refers to appears in a first-private clause. This is expected to be used
5358*67e74705SXin Li /// only with directives that start with 'target'.
adjustMapModifiersForPrivateClauses(const CapturedStmt::Capture & Cap,unsigned CurrentModifiers)5359*67e74705SXin Li unsigned adjustMapModifiersForPrivateClauses(const CapturedStmt::Capture &Cap,
5360*67e74705SXin Li unsigned CurrentModifiers) {
5361*67e74705SXin Li assert(Cap.capturesVariable() && "Expected capture by reference only!");
5362*67e74705SXin Li
5363*67e74705SXin Li // A first private variable captured by reference will use only the
5364*67e74705SXin Li // 'private ptr' and 'map to' flag. Return the right flags if the captured
5365*67e74705SXin Li // declaration is known as first-private in this handler.
5366*67e74705SXin Li if (FirstPrivateDecls.count(Cap.getCapturedVar()))
5367*67e74705SXin Li return MappableExprsHandler::OMP_MAP_PRIVATE_PTR |
5368*67e74705SXin Li MappableExprsHandler::OMP_MAP_TO;
5369*67e74705SXin Li
5370*67e74705SXin Li // We didn't modify anything.
5371*67e74705SXin Li return CurrentModifiers;
5372*67e74705SXin Li }
5373*67e74705SXin Li
5374*67e74705SXin Li public:
MappableExprsHandler(const OMPExecutableDirective & Dir,CodeGenFunction & CGF)5375*67e74705SXin Li MappableExprsHandler(const OMPExecutableDirective &Dir, CodeGenFunction &CGF)
5376*67e74705SXin Li : Directive(Dir), CGF(CGF) {
5377*67e74705SXin Li // Extract firstprivate clause information.
5378*67e74705SXin Li for (const auto *C : Dir.getClausesOfKind<OMPFirstprivateClause>())
5379*67e74705SXin Li for (const auto *D : C->varlists())
5380*67e74705SXin Li FirstPrivateDecls.insert(
5381*67e74705SXin Li cast<VarDecl>(cast<DeclRefExpr>(D)->getDecl())->getCanonicalDecl());
5382*67e74705SXin Li }
5383*67e74705SXin Li
5384*67e74705SXin Li /// \brief Generate all the base pointers, section pointers, sizes and map
5385*67e74705SXin Li /// types for the extracted mappable expressions.
generateAllInfo(MapValuesArrayTy & BasePointers,MapValuesArrayTy & Pointers,MapValuesArrayTy & Sizes,MapFlagsArrayTy & Types) const5386*67e74705SXin Li void generateAllInfo(MapValuesArrayTy &BasePointers,
5387*67e74705SXin Li MapValuesArrayTy &Pointers, MapValuesArrayTy &Sizes,
5388*67e74705SXin Li MapFlagsArrayTy &Types) const {
5389*67e74705SXin Li BasePointers.clear();
5390*67e74705SXin Li Pointers.clear();
5391*67e74705SXin Li Sizes.clear();
5392*67e74705SXin Li Types.clear();
5393*67e74705SXin Li
5394*67e74705SXin Li struct MapInfo {
5395*67e74705SXin Li OMPClauseMappableExprCommon::MappableExprComponentListRef Components;
5396*67e74705SXin Li OpenMPMapClauseKind MapType;
5397*67e74705SXin Li OpenMPMapClauseKind MapTypeModifier;
5398*67e74705SXin Li };
5399*67e74705SXin Li
5400*67e74705SXin Li // We have to process the component lists that relate with the same
5401*67e74705SXin Li // declaration in a single chunk so that we can generate the map flags
5402*67e74705SXin Li // correctly. Therefore, we organize all lists in a map.
5403*67e74705SXin Li llvm::DenseMap<const ValueDecl *, SmallVector<MapInfo, 8>> Info;
5404*67e74705SXin Li
5405*67e74705SXin Li // Helper function to fill the information map for the different supported
5406*67e74705SXin Li // clauses.
5407*67e74705SXin Li auto &&InfoGen =
5408*67e74705SXin Li [&Info](const ValueDecl *D,
5409*67e74705SXin Li OMPClauseMappableExprCommon::MappableExprComponentListRef L,
5410*67e74705SXin Li OpenMPMapClauseKind MapType, OpenMPMapClauseKind MapModifier) {
5411*67e74705SXin Li const ValueDecl *VD =
5412*67e74705SXin Li D ? cast<ValueDecl>(D->getCanonicalDecl()) : nullptr;
5413*67e74705SXin Li Info[VD].push_back({L, MapType, MapModifier});
5414*67e74705SXin Li };
5415*67e74705SXin Li
5416*67e74705SXin Li for (auto *C : Directive.getClausesOfKind<OMPMapClause>())
5417*67e74705SXin Li for (auto L : C->component_lists())
5418*67e74705SXin Li InfoGen(L.first, L.second, C->getMapType(), C->getMapTypeModifier());
5419*67e74705SXin Li for (auto *C : Directive.getClausesOfKind<OMPToClause>())
5420*67e74705SXin Li for (auto L : C->component_lists())
5421*67e74705SXin Li InfoGen(L.first, L.second, OMPC_MAP_to, OMPC_MAP_unknown);
5422*67e74705SXin Li for (auto *C : Directive.getClausesOfKind<OMPFromClause>())
5423*67e74705SXin Li for (auto L : C->component_lists())
5424*67e74705SXin Li InfoGen(L.first, L.second, OMPC_MAP_from, OMPC_MAP_unknown);
5425*67e74705SXin Li
5426*67e74705SXin Li for (auto &M : Info) {
5427*67e74705SXin Li // We need to know when we generate information for the first component
5428*67e74705SXin Li // associated with a capture, because the mapping flags depend on it.
5429*67e74705SXin Li bool IsFirstComponentList = true;
5430*67e74705SXin Li for (MapInfo &L : M.second) {
5431*67e74705SXin Li assert(!L.Components.empty() &&
5432*67e74705SXin Li "Not expecting declaration with no component lists.");
5433*67e74705SXin Li generateInfoForComponentList(L.MapType, L.MapTypeModifier, L.Components,
5434*67e74705SXin Li BasePointers, Pointers, Sizes, Types,
5435*67e74705SXin Li IsFirstComponentList);
5436*67e74705SXin Li IsFirstComponentList = false;
5437*67e74705SXin Li }
5438*67e74705SXin Li }
5439*67e74705SXin Li }
5440*67e74705SXin Li
5441*67e74705SXin Li /// \brief Generate the base pointers, section pointers, sizes and map types
5442*67e74705SXin Li /// associated to a given capture.
generateInfoForCapture(const CapturedStmt::Capture * Cap,MapValuesArrayTy & BasePointers,MapValuesArrayTy & Pointers,MapValuesArrayTy & Sizes,MapFlagsArrayTy & Types) const5443*67e74705SXin Li void generateInfoForCapture(const CapturedStmt::Capture *Cap,
5444*67e74705SXin Li MapValuesArrayTy &BasePointers,
5445*67e74705SXin Li MapValuesArrayTy &Pointers,
5446*67e74705SXin Li MapValuesArrayTy &Sizes,
5447*67e74705SXin Li MapFlagsArrayTy &Types) const {
5448*67e74705SXin Li assert(!Cap->capturesVariableArrayType() &&
5449*67e74705SXin Li "Not expecting to generate map info for a variable array type!");
5450*67e74705SXin Li
5451*67e74705SXin Li BasePointers.clear();
5452*67e74705SXin Li Pointers.clear();
5453*67e74705SXin Li Sizes.clear();
5454*67e74705SXin Li Types.clear();
5455*67e74705SXin Li
5456*67e74705SXin Li const ValueDecl *VD =
5457*67e74705SXin Li Cap->capturesThis()
5458*67e74705SXin Li ? nullptr
5459*67e74705SXin Li : cast<ValueDecl>(Cap->getCapturedVar()->getCanonicalDecl());
5460*67e74705SXin Li
5461*67e74705SXin Li // We need to know when we generating information for the first component
5462*67e74705SXin Li // associated with a capture, because the mapping flags depend on it.
5463*67e74705SXin Li bool IsFirstComponentList = true;
5464*67e74705SXin Li for (auto *C : Directive.getClausesOfKind<OMPMapClause>())
5465*67e74705SXin Li for (auto L : C->decl_component_lists(VD)) {
5466*67e74705SXin Li assert(L.first == VD &&
5467*67e74705SXin Li "We got information for the wrong declaration??");
5468*67e74705SXin Li assert(!L.second.empty() &&
5469*67e74705SXin Li "Not expecting declaration with no component lists.");
5470*67e74705SXin Li generateInfoForComponentList(C->getMapType(), C->getMapTypeModifier(),
5471*67e74705SXin Li L.second, BasePointers, Pointers, Sizes,
5472*67e74705SXin Li Types, IsFirstComponentList);
5473*67e74705SXin Li IsFirstComponentList = false;
5474*67e74705SXin Li }
5475*67e74705SXin Li
5476*67e74705SXin Li return;
5477*67e74705SXin Li }
5478*67e74705SXin Li
5479*67e74705SXin Li /// \brief Generate the default map information for a given capture \a CI,
5480*67e74705SXin Li /// record field declaration \a RI and captured value \a CV.
generateDefaultMapInfo(const CapturedStmt::Capture & CI,const FieldDecl & RI,llvm::Value * CV,MappableExprsHandler::MapValuesArrayTy & CurBasePointers,MappableExprsHandler::MapValuesArrayTy & CurPointers,MappableExprsHandler::MapValuesArrayTy & CurSizes,MappableExprsHandler::MapFlagsArrayTy & CurMapTypes)5481*67e74705SXin Li void generateDefaultMapInfo(
5482*67e74705SXin Li const CapturedStmt::Capture &CI, const FieldDecl &RI, llvm::Value *CV,
5483*67e74705SXin Li MappableExprsHandler::MapValuesArrayTy &CurBasePointers,
5484*67e74705SXin Li MappableExprsHandler::MapValuesArrayTy &CurPointers,
5485*67e74705SXin Li MappableExprsHandler::MapValuesArrayTy &CurSizes,
5486*67e74705SXin Li MappableExprsHandler::MapFlagsArrayTy &CurMapTypes) {
5487*67e74705SXin Li
5488*67e74705SXin Li // Do the default mapping.
5489*67e74705SXin Li if (CI.capturesThis()) {
5490*67e74705SXin Li CurBasePointers.push_back(CV);
5491*67e74705SXin Li CurPointers.push_back(CV);
5492*67e74705SXin Li const PointerType *PtrTy = cast<PointerType>(RI.getType().getTypePtr());
5493*67e74705SXin Li CurSizes.push_back(CGF.getTypeSize(PtrTy->getPointeeType()));
5494*67e74705SXin Li // Default map type.
5495*67e74705SXin Li CurMapTypes.push_back(MappableExprsHandler::OMP_MAP_TO |
5496*67e74705SXin Li MappableExprsHandler::OMP_MAP_FROM);
5497*67e74705SXin Li } else if (CI.capturesVariableByCopy()) {
5498*67e74705SXin Li CurBasePointers.push_back(CV);
5499*67e74705SXin Li CurPointers.push_back(CV);
5500*67e74705SXin Li if (!RI.getType()->isAnyPointerType()) {
5501*67e74705SXin Li // We have to signal to the runtime captures passed by value that are
5502*67e74705SXin Li // not pointers.
5503*67e74705SXin Li CurMapTypes.push_back(MappableExprsHandler::OMP_MAP_PRIVATE_VAL);
5504*67e74705SXin Li CurSizes.push_back(CGF.getTypeSize(RI.getType()));
5505*67e74705SXin Li } else {
5506*67e74705SXin Li // Pointers are implicitly mapped with a zero size and no flags
5507*67e74705SXin Li // (other than first map that is added for all implicit maps).
5508*67e74705SXin Li CurMapTypes.push_back(0u);
5509*67e74705SXin Li CurSizes.push_back(llvm::Constant::getNullValue(CGF.SizeTy));
5510*67e74705SXin Li }
5511*67e74705SXin Li } else {
5512*67e74705SXin Li assert(CI.capturesVariable() && "Expected captured reference.");
5513*67e74705SXin Li CurBasePointers.push_back(CV);
5514*67e74705SXin Li CurPointers.push_back(CV);
5515*67e74705SXin Li
5516*67e74705SXin Li const ReferenceType *PtrTy =
5517*67e74705SXin Li cast<ReferenceType>(RI.getType().getTypePtr());
5518*67e74705SXin Li QualType ElementType = PtrTy->getPointeeType();
5519*67e74705SXin Li CurSizes.push_back(CGF.getTypeSize(ElementType));
5520*67e74705SXin Li // The default map type for a scalar/complex type is 'to' because by
5521*67e74705SXin Li // default the value doesn't have to be retrieved. For an aggregate
5522*67e74705SXin Li // type, the default is 'tofrom'.
5523*67e74705SXin Li CurMapTypes.push_back(ElementType->isAggregateType()
5524*67e74705SXin Li ? (MappableExprsHandler::OMP_MAP_TO |
5525*67e74705SXin Li MappableExprsHandler::OMP_MAP_FROM)
5526*67e74705SXin Li : MappableExprsHandler::OMP_MAP_TO);
5527*67e74705SXin Li
5528*67e74705SXin Li // If we have a capture by reference we may need to add the private
5529*67e74705SXin Li // pointer flag if the base declaration shows in some first-private
5530*67e74705SXin Li // clause.
5531*67e74705SXin Li CurMapTypes.back() =
5532*67e74705SXin Li adjustMapModifiersForPrivateClauses(CI, CurMapTypes.back());
5533*67e74705SXin Li }
5534*67e74705SXin Li // Every default map produces a single argument, so, it is always the
5535*67e74705SXin Li // first one.
5536*67e74705SXin Li CurMapTypes.back() |= MappableExprsHandler::OMP_MAP_FIRST_REF;
5537*67e74705SXin Li }
5538*67e74705SXin Li };
5539*67e74705SXin Li
5540*67e74705SXin Li enum OpenMPOffloadingReservedDeviceIDs {
5541*67e74705SXin Li /// \brief Device ID if the device was not defined, runtime should get it
5542*67e74705SXin Li /// from environment variables in the spec.
5543*67e74705SXin Li OMP_DEVICEID_UNDEF = -1,
5544*67e74705SXin Li };
5545*67e74705SXin Li } // anonymous namespace
5546*67e74705SXin Li
5547*67e74705SXin Li /// \brief Emit the arrays used to pass the captures and map information to the
5548*67e74705SXin Li /// offloading runtime library. If there is no map or capture information,
5549*67e74705SXin Li /// return nullptr by reference.
5550*67e74705SXin Li static void
emitOffloadingArrays(CodeGenFunction & CGF,llvm::Value * & BasePointersArray,llvm::Value * & PointersArray,llvm::Value * & SizesArray,llvm::Value * & MapTypesArray,MappableExprsHandler::MapValuesArrayTy & BasePointers,MappableExprsHandler::MapValuesArrayTy & Pointers,MappableExprsHandler::MapValuesArrayTy & Sizes,MappableExprsHandler::MapFlagsArrayTy & MapTypes)5551*67e74705SXin Li emitOffloadingArrays(CodeGenFunction &CGF, llvm::Value *&BasePointersArray,
5552*67e74705SXin Li llvm::Value *&PointersArray, llvm::Value *&SizesArray,
5553*67e74705SXin Li llvm::Value *&MapTypesArray,
5554*67e74705SXin Li MappableExprsHandler::MapValuesArrayTy &BasePointers,
5555*67e74705SXin Li MappableExprsHandler::MapValuesArrayTy &Pointers,
5556*67e74705SXin Li MappableExprsHandler::MapValuesArrayTy &Sizes,
5557*67e74705SXin Li MappableExprsHandler::MapFlagsArrayTy &MapTypes) {
5558*67e74705SXin Li auto &CGM = CGF.CGM;
5559*67e74705SXin Li auto &Ctx = CGF.getContext();
5560*67e74705SXin Li
5561*67e74705SXin Li BasePointersArray = PointersArray = SizesArray = MapTypesArray = nullptr;
5562*67e74705SXin Li
5563*67e74705SXin Li if (unsigned PointerNumVal = BasePointers.size()) {
5564*67e74705SXin Li // Detect if we have any capture size requiring runtime evaluation of the
5565*67e74705SXin Li // size so that a constant array could be eventually used.
5566*67e74705SXin Li bool hasRuntimeEvaluationCaptureSize = false;
5567*67e74705SXin Li for (auto *S : Sizes)
5568*67e74705SXin Li if (!isa<llvm::Constant>(S)) {
5569*67e74705SXin Li hasRuntimeEvaluationCaptureSize = true;
5570*67e74705SXin Li break;
5571*67e74705SXin Li }
5572*67e74705SXin Li
5573*67e74705SXin Li llvm::APInt PointerNumAP(32, PointerNumVal, /*isSigned=*/true);
5574*67e74705SXin Li QualType PointerArrayType =
5575*67e74705SXin Li Ctx.getConstantArrayType(Ctx.VoidPtrTy, PointerNumAP, ArrayType::Normal,
5576*67e74705SXin Li /*IndexTypeQuals=*/0);
5577*67e74705SXin Li
5578*67e74705SXin Li BasePointersArray =
5579*67e74705SXin Li CGF.CreateMemTemp(PointerArrayType, ".offload_baseptrs").getPointer();
5580*67e74705SXin Li PointersArray =
5581*67e74705SXin Li CGF.CreateMemTemp(PointerArrayType, ".offload_ptrs").getPointer();
5582*67e74705SXin Li
5583*67e74705SXin Li // If we don't have any VLA types or other types that require runtime
5584*67e74705SXin Li // evaluation, we can use a constant array for the map sizes, otherwise we
5585*67e74705SXin Li // need to fill up the arrays as we do for the pointers.
5586*67e74705SXin Li if (hasRuntimeEvaluationCaptureSize) {
5587*67e74705SXin Li QualType SizeArrayType = Ctx.getConstantArrayType(
5588*67e74705SXin Li Ctx.getSizeType(), PointerNumAP, ArrayType::Normal,
5589*67e74705SXin Li /*IndexTypeQuals=*/0);
5590*67e74705SXin Li SizesArray =
5591*67e74705SXin Li CGF.CreateMemTemp(SizeArrayType, ".offload_sizes").getPointer();
5592*67e74705SXin Li } else {
5593*67e74705SXin Li // We expect all the sizes to be constant, so we collect them to create
5594*67e74705SXin Li // a constant array.
5595*67e74705SXin Li SmallVector<llvm::Constant *, 16> ConstSizes;
5596*67e74705SXin Li for (auto S : Sizes)
5597*67e74705SXin Li ConstSizes.push_back(cast<llvm::Constant>(S));
5598*67e74705SXin Li
5599*67e74705SXin Li auto *SizesArrayInit = llvm::ConstantArray::get(
5600*67e74705SXin Li llvm::ArrayType::get(CGM.SizeTy, ConstSizes.size()), ConstSizes);
5601*67e74705SXin Li auto *SizesArrayGbl = new llvm::GlobalVariable(
5602*67e74705SXin Li CGM.getModule(), SizesArrayInit->getType(),
5603*67e74705SXin Li /*isConstant=*/true, llvm::GlobalValue::PrivateLinkage,
5604*67e74705SXin Li SizesArrayInit, ".offload_sizes");
5605*67e74705SXin Li SizesArrayGbl->setUnnamedAddr(llvm::GlobalValue::UnnamedAddr::Global);
5606*67e74705SXin Li SizesArray = SizesArrayGbl;
5607*67e74705SXin Li }
5608*67e74705SXin Li
5609*67e74705SXin Li // The map types are always constant so we don't need to generate code to
5610*67e74705SXin Li // fill arrays. Instead, we create an array constant.
5611*67e74705SXin Li llvm::Constant *MapTypesArrayInit =
5612*67e74705SXin Li llvm::ConstantDataArray::get(CGF.Builder.getContext(), MapTypes);
5613*67e74705SXin Li auto *MapTypesArrayGbl = new llvm::GlobalVariable(
5614*67e74705SXin Li CGM.getModule(), MapTypesArrayInit->getType(),
5615*67e74705SXin Li /*isConstant=*/true, llvm::GlobalValue::PrivateLinkage,
5616*67e74705SXin Li MapTypesArrayInit, ".offload_maptypes");
5617*67e74705SXin Li MapTypesArrayGbl->setUnnamedAddr(llvm::GlobalValue::UnnamedAddr::Global);
5618*67e74705SXin Li MapTypesArray = MapTypesArrayGbl;
5619*67e74705SXin Li
5620*67e74705SXin Li for (unsigned i = 0; i < PointerNumVal; ++i) {
5621*67e74705SXin Li llvm::Value *BPVal = BasePointers[i];
5622*67e74705SXin Li if (BPVal->getType()->isPointerTy())
5623*67e74705SXin Li BPVal = CGF.Builder.CreateBitCast(BPVal, CGM.VoidPtrTy);
5624*67e74705SXin Li else {
5625*67e74705SXin Li assert(BPVal->getType()->isIntegerTy() &&
5626*67e74705SXin Li "If not a pointer, the value type must be an integer.");
5627*67e74705SXin Li BPVal = CGF.Builder.CreateIntToPtr(BPVal, CGM.VoidPtrTy);
5628*67e74705SXin Li }
5629*67e74705SXin Li llvm::Value *BP = CGF.Builder.CreateConstInBoundsGEP2_32(
5630*67e74705SXin Li llvm::ArrayType::get(CGM.VoidPtrTy, PointerNumVal), BasePointersArray,
5631*67e74705SXin Li 0, i);
5632*67e74705SXin Li Address BPAddr(BP, Ctx.getTypeAlignInChars(Ctx.VoidPtrTy));
5633*67e74705SXin Li CGF.Builder.CreateStore(BPVal, BPAddr);
5634*67e74705SXin Li
5635*67e74705SXin Li llvm::Value *PVal = Pointers[i];
5636*67e74705SXin Li if (PVal->getType()->isPointerTy())
5637*67e74705SXin Li PVal = CGF.Builder.CreateBitCast(PVal, CGM.VoidPtrTy);
5638*67e74705SXin Li else {
5639*67e74705SXin Li assert(PVal->getType()->isIntegerTy() &&
5640*67e74705SXin Li "If not a pointer, the value type must be an integer.");
5641*67e74705SXin Li PVal = CGF.Builder.CreateIntToPtr(PVal, CGM.VoidPtrTy);
5642*67e74705SXin Li }
5643*67e74705SXin Li llvm::Value *P = CGF.Builder.CreateConstInBoundsGEP2_32(
5644*67e74705SXin Li llvm::ArrayType::get(CGM.VoidPtrTy, PointerNumVal), PointersArray, 0,
5645*67e74705SXin Li i);
5646*67e74705SXin Li Address PAddr(P, Ctx.getTypeAlignInChars(Ctx.VoidPtrTy));
5647*67e74705SXin Li CGF.Builder.CreateStore(PVal, PAddr);
5648*67e74705SXin Li
5649*67e74705SXin Li if (hasRuntimeEvaluationCaptureSize) {
5650*67e74705SXin Li llvm::Value *S = CGF.Builder.CreateConstInBoundsGEP2_32(
5651*67e74705SXin Li llvm::ArrayType::get(CGM.SizeTy, PointerNumVal), SizesArray,
5652*67e74705SXin Li /*Idx0=*/0,
5653*67e74705SXin Li /*Idx1=*/i);
5654*67e74705SXin Li Address SAddr(S, Ctx.getTypeAlignInChars(Ctx.getSizeType()));
5655*67e74705SXin Li CGF.Builder.CreateStore(
5656*67e74705SXin Li CGF.Builder.CreateIntCast(Sizes[i], CGM.SizeTy, /*isSigned=*/true),
5657*67e74705SXin Li SAddr);
5658*67e74705SXin Li }
5659*67e74705SXin Li }
5660*67e74705SXin Li }
5661*67e74705SXin Li }
5662*67e74705SXin Li /// \brief Emit the arguments to be passed to the runtime library based on the
5663*67e74705SXin Li /// arrays of pointers, sizes and map types.
emitOffloadingArraysArgument(CodeGenFunction & CGF,llvm::Value * & BasePointersArrayArg,llvm::Value * & PointersArrayArg,llvm::Value * & SizesArrayArg,llvm::Value * & MapTypesArrayArg,llvm::Value * BasePointersArray,llvm::Value * PointersArray,llvm::Value * SizesArray,llvm::Value * MapTypesArray,unsigned NumElems)5664*67e74705SXin Li static void emitOffloadingArraysArgument(
5665*67e74705SXin Li CodeGenFunction &CGF, llvm::Value *&BasePointersArrayArg,
5666*67e74705SXin Li llvm::Value *&PointersArrayArg, llvm::Value *&SizesArrayArg,
5667*67e74705SXin Li llvm::Value *&MapTypesArrayArg, llvm::Value *BasePointersArray,
5668*67e74705SXin Li llvm::Value *PointersArray, llvm::Value *SizesArray,
5669*67e74705SXin Li llvm::Value *MapTypesArray, unsigned NumElems) {
5670*67e74705SXin Li auto &CGM = CGF.CGM;
5671*67e74705SXin Li if (NumElems) {
5672*67e74705SXin Li BasePointersArrayArg = CGF.Builder.CreateConstInBoundsGEP2_32(
5673*67e74705SXin Li llvm::ArrayType::get(CGM.VoidPtrTy, NumElems), BasePointersArray,
5674*67e74705SXin Li /*Idx0=*/0, /*Idx1=*/0);
5675*67e74705SXin Li PointersArrayArg = CGF.Builder.CreateConstInBoundsGEP2_32(
5676*67e74705SXin Li llvm::ArrayType::get(CGM.VoidPtrTy, NumElems), PointersArray,
5677*67e74705SXin Li /*Idx0=*/0,
5678*67e74705SXin Li /*Idx1=*/0);
5679*67e74705SXin Li SizesArrayArg = CGF.Builder.CreateConstInBoundsGEP2_32(
5680*67e74705SXin Li llvm::ArrayType::get(CGM.SizeTy, NumElems), SizesArray,
5681*67e74705SXin Li /*Idx0=*/0, /*Idx1=*/0);
5682*67e74705SXin Li MapTypesArrayArg = CGF.Builder.CreateConstInBoundsGEP2_32(
5683*67e74705SXin Li llvm::ArrayType::get(CGM.Int32Ty, NumElems), MapTypesArray,
5684*67e74705SXin Li /*Idx0=*/0,
5685*67e74705SXin Li /*Idx1=*/0);
5686*67e74705SXin Li } else {
5687*67e74705SXin Li BasePointersArrayArg = llvm::ConstantPointerNull::get(CGM.VoidPtrPtrTy);
5688*67e74705SXin Li PointersArrayArg = llvm::ConstantPointerNull::get(CGM.VoidPtrPtrTy);
5689*67e74705SXin Li SizesArrayArg = llvm::ConstantPointerNull::get(CGM.SizeTy->getPointerTo());
5690*67e74705SXin Li MapTypesArrayArg =
5691*67e74705SXin Li llvm::ConstantPointerNull::get(CGM.Int32Ty->getPointerTo());
5692*67e74705SXin Li }
5693*67e74705SXin Li }
5694*67e74705SXin Li
emitTargetCall(CodeGenFunction & CGF,const OMPExecutableDirective & D,llvm::Value * OutlinedFn,llvm::Value * OutlinedFnID,const Expr * IfCond,const Expr * Device,ArrayRef<llvm::Value * > CapturedVars)5695*67e74705SXin Li void CGOpenMPRuntime::emitTargetCall(CodeGenFunction &CGF,
5696*67e74705SXin Li const OMPExecutableDirective &D,
5697*67e74705SXin Li llvm::Value *OutlinedFn,
5698*67e74705SXin Li llvm::Value *OutlinedFnID,
5699*67e74705SXin Li const Expr *IfCond, const Expr *Device,
5700*67e74705SXin Li ArrayRef<llvm::Value *> CapturedVars) {
5701*67e74705SXin Li if (!CGF.HaveInsertPoint())
5702*67e74705SXin Li return;
5703*67e74705SXin Li
5704*67e74705SXin Li assert(OutlinedFn && "Invalid outlined function!");
5705*67e74705SXin Li
5706*67e74705SXin Li auto &Ctx = CGF.getContext();
5707*67e74705SXin Li
5708*67e74705SXin Li // Fill up the arrays with all the captured variables.
5709*67e74705SXin Li MappableExprsHandler::MapValuesArrayTy KernelArgs;
5710*67e74705SXin Li MappableExprsHandler::MapValuesArrayTy BasePointers;
5711*67e74705SXin Li MappableExprsHandler::MapValuesArrayTy Pointers;
5712*67e74705SXin Li MappableExprsHandler::MapValuesArrayTy Sizes;
5713*67e74705SXin Li MappableExprsHandler::MapFlagsArrayTy MapTypes;
5714*67e74705SXin Li
5715*67e74705SXin Li MappableExprsHandler::MapValuesArrayTy CurBasePointers;
5716*67e74705SXin Li MappableExprsHandler::MapValuesArrayTy CurPointers;
5717*67e74705SXin Li MappableExprsHandler::MapValuesArrayTy CurSizes;
5718*67e74705SXin Li MappableExprsHandler::MapFlagsArrayTy CurMapTypes;
5719*67e74705SXin Li
5720*67e74705SXin Li // Get mappable expression information.
5721*67e74705SXin Li MappableExprsHandler MEHandler(D, CGF);
5722*67e74705SXin Li
5723*67e74705SXin Li const CapturedStmt &CS = *cast<CapturedStmt>(D.getAssociatedStmt());
5724*67e74705SXin Li auto RI = CS.getCapturedRecordDecl()->field_begin();
5725*67e74705SXin Li auto CV = CapturedVars.begin();
5726*67e74705SXin Li for (CapturedStmt::const_capture_iterator CI = CS.capture_begin(),
5727*67e74705SXin Li CE = CS.capture_end();
5728*67e74705SXin Li CI != CE; ++CI, ++RI, ++CV) {
5729*67e74705SXin Li StringRef Name;
5730*67e74705SXin Li QualType Ty;
5731*67e74705SXin Li
5732*67e74705SXin Li CurBasePointers.clear();
5733*67e74705SXin Li CurPointers.clear();
5734*67e74705SXin Li CurSizes.clear();
5735*67e74705SXin Li CurMapTypes.clear();
5736*67e74705SXin Li
5737*67e74705SXin Li // VLA sizes are passed to the outlined region by copy and do not have map
5738*67e74705SXin Li // information associated.
5739*67e74705SXin Li if (CI->capturesVariableArrayType()) {
5740*67e74705SXin Li CurBasePointers.push_back(*CV);
5741*67e74705SXin Li CurPointers.push_back(*CV);
5742*67e74705SXin Li CurSizes.push_back(CGF.getTypeSize(RI->getType()));
5743*67e74705SXin Li // Copy to the device as an argument. No need to retrieve it.
5744*67e74705SXin Li CurMapTypes.push_back(MappableExprsHandler::OMP_MAP_PRIVATE_VAL |
5745*67e74705SXin Li MappableExprsHandler::OMP_MAP_FIRST_REF);
5746*67e74705SXin Li } else {
5747*67e74705SXin Li // If we have any information in the map clause, we use it, otherwise we
5748*67e74705SXin Li // just do a default mapping.
5749*67e74705SXin Li MEHandler.generateInfoForCapture(CI, CurBasePointers, CurPointers,
5750*67e74705SXin Li CurSizes, CurMapTypes);
5751*67e74705SXin Li if (CurBasePointers.empty())
5752*67e74705SXin Li MEHandler.generateDefaultMapInfo(*CI, **RI, *CV, CurBasePointers,
5753*67e74705SXin Li CurPointers, CurSizes, CurMapTypes);
5754*67e74705SXin Li }
5755*67e74705SXin Li // We expect to have at least an element of information for this capture.
5756*67e74705SXin Li assert(!CurBasePointers.empty() && "Non-existing map pointer for capture!");
5757*67e74705SXin Li assert(CurBasePointers.size() == CurPointers.size() &&
5758*67e74705SXin Li CurBasePointers.size() == CurSizes.size() &&
5759*67e74705SXin Li CurBasePointers.size() == CurMapTypes.size() &&
5760*67e74705SXin Li "Inconsistent map information sizes!");
5761*67e74705SXin Li
5762*67e74705SXin Li // The kernel args are always the first elements of the base pointers
5763*67e74705SXin Li // associated with a capture.
5764*67e74705SXin Li KernelArgs.push_back(CurBasePointers.front());
5765*67e74705SXin Li // We need to append the results of this capture to what we already have.
5766*67e74705SXin Li BasePointers.append(CurBasePointers.begin(), CurBasePointers.end());
5767*67e74705SXin Li Pointers.append(CurPointers.begin(), CurPointers.end());
5768*67e74705SXin Li Sizes.append(CurSizes.begin(), CurSizes.end());
5769*67e74705SXin Li MapTypes.append(CurMapTypes.begin(), CurMapTypes.end());
5770*67e74705SXin Li }
5771*67e74705SXin Li
5772*67e74705SXin Li // Keep track on whether the host function has to be executed.
5773*67e74705SXin Li auto OffloadErrorQType =
5774*67e74705SXin Li Ctx.getIntTypeForBitwidth(/*DestWidth=*/32, /*Signed=*/true);
5775*67e74705SXin Li auto OffloadError = CGF.MakeAddrLValue(
5776*67e74705SXin Li CGF.CreateMemTemp(OffloadErrorQType, ".run_host_version"),
5777*67e74705SXin Li OffloadErrorQType);
5778*67e74705SXin Li CGF.EmitStoreOfScalar(llvm::Constant::getNullValue(CGM.Int32Ty),
5779*67e74705SXin Li OffloadError);
5780*67e74705SXin Li
5781*67e74705SXin Li // Fill up the pointer arrays and transfer execution to the device.
5782*67e74705SXin Li auto &&ThenGen = [&Ctx, &BasePointers, &Pointers, &Sizes, &MapTypes, Device,
5783*67e74705SXin Li OutlinedFnID, OffloadError, OffloadErrorQType,
5784*67e74705SXin Li &D](CodeGenFunction &CGF, PrePostActionTy &) {
5785*67e74705SXin Li auto &RT = CGF.CGM.getOpenMPRuntime();
5786*67e74705SXin Li // Emit the offloading arrays.
5787*67e74705SXin Li llvm::Value *BasePointersArray;
5788*67e74705SXin Li llvm::Value *PointersArray;
5789*67e74705SXin Li llvm::Value *SizesArray;
5790*67e74705SXin Li llvm::Value *MapTypesArray;
5791*67e74705SXin Li emitOffloadingArrays(CGF, BasePointersArray, PointersArray, SizesArray,
5792*67e74705SXin Li MapTypesArray, BasePointers, Pointers, Sizes,
5793*67e74705SXin Li MapTypes);
5794*67e74705SXin Li emitOffloadingArraysArgument(CGF, BasePointersArray, PointersArray,
5795*67e74705SXin Li SizesArray, MapTypesArray, BasePointersArray,
5796*67e74705SXin Li PointersArray, SizesArray, MapTypesArray,
5797*67e74705SXin Li BasePointers.size());
5798*67e74705SXin Li
5799*67e74705SXin Li // On top of the arrays that were filled up, the target offloading call
5800*67e74705SXin Li // takes as arguments the device id as well as the host pointer. The host
5801*67e74705SXin Li // pointer is used by the runtime library to identify the current target
5802*67e74705SXin Li // region, so it only has to be unique and not necessarily point to
5803*67e74705SXin Li // anything. It could be the pointer to the outlined function that
5804*67e74705SXin Li // implements the target region, but we aren't using that so that the
5805*67e74705SXin Li // compiler doesn't need to keep that, and could therefore inline the host
5806*67e74705SXin Li // function if proven worthwhile during optimization.
5807*67e74705SXin Li
5808*67e74705SXin Li // From this point on, we need to have an ID of the target region defined.
5809*67e74705SXin Li assert(OutlinedFnID && "Invalid outlined function ID!");
5810*67e74705SXin Li
5811*67e74705SXin Li // Emit device ID if any.
5812*67e74705SXin Li llvm::Value *DeviceID;
5813*67e74705SXin Li if (Device)
5814*67e74705SXin Li DeviceID = CGF.Builder.CreateIntCast(CGF.EmitScalarExpr(Device),
5815*67e74705SXin Li CGF.Int32Ty, /*isSigned=*/true);
5816*67e74705SXin Li else
5817*67e74705SXin Li DeviceID = CGF.Builder.getInt32(OMP_DEVICEID_UNDEF);
5818*67e74705SXin Li
5819*67e74705SXin Li // Emit the number of elements in the offloading arrays.
5820*67e74705SXin Li llvm::Value *PointerNum = CGF.Builder.getInt32(BasePointers.size());
5821*67e74705SXin Li
5822*67e74705SXin Li // Return value of the runtime offloading call.
5823*67e74705SXin Li llvm::Value *Return;
5824*67e74705SXin Li
5825*67e74705SXin Li auto *NumTeams = emitNumTeamsClauseForTargetDirective(RT, CGF, D);
5826*67e74705SXin Li auto *ThreadLimit = emitThreadLimitClauseForTargetDirective(RT, CGF, D);
5827*67e74705SXin Li
5828*67e74705SXin Li // If we have NumTeams defined this means that we have an enclosed teams
5829*67e74705SXin Li // region. Therefore we also expect to have ThreadLimit defined. These two
5830*67e74705SXin Li // values should be defined in the presence of a teams directive, regardless
5831*67e74705SXin Li // of having any clauses associated. If the user is using teams but no
5832*67e74705SXin Li // clauses, these two values will be the default that should be passed to
5833*67e74705SXin Li // the runtime library - a 32-bit integer with the value zero.
5834*67e74705SXin Li if (NumTeams) {
5835*67e74705SXin Li assert(ThreadLimit && "Thread limit expression should be available along "
5836*67e74705SXin Li "with number of teams.");
5837*67e74705SXin Li llvm::Value *OffloadingArgs[] = {
5838*67e74705SXin Li DeviceID, OutlinedFnID, PointerNum,
5839*67e74705SXin Li BasePointersArray, PointersArray, SizesArray,
5840*67e74705SXin Li MapTypesArray, NumTeams, ThreadLimit};
5841*67e74705SXin Li Return = CGF.EmitRuntimeCall(
5842*67e74705SXin Li RT.createRuntimeFunction(OMPRTL__tgt_target_teams), OffloadingArgs);
5843*67e74705SXin Li } else {
5844*67e74705SXin Li llvm::Value *OffloadingArgs[] = {
5845*67e74705SXin Li DeviceID, OutlinedFnID, PointerNum, BasePointersArray,
5846*67e74705SXin Li PointersArray, SizesArray, MapTypesArray};
5847*67e74705SXin Li Return = CGF.EmitRuntimeCall(RT.createRuntimeFunction(OMPRTL__tgt_target),
5848*67e74705SXin Li OffloadingArgs);
5849*67e74705SXin Li }
5850*67e74705SXin Li
5851*67e74705SXin Li CGF.EmitStoreOfScalar(Return, OffloadError);
5852*67e74705SXin Li };
5853*67e74705SXin Li
5854*67e74705SXin Li // Notify that the host version must be executed.
5855*67e74705SXin Li auto &&ElseGen = [OffloadError](CodeGenFunction &CGF, PrePostActionTy &) {
5856*67e74705SXin Li CGF.EmitStoreOfScalar(llvm::ConstantInt::get(CGF.Int32Ty, /*V=*/-1u),
5857*67e74705SXin Li OffloadError);
5858*67e74705SXin Li };
5859*67e74705SXin Li
5860*67e74705SXin Li // If we have a target function ID it means that we need to support
5861*67e74705SXin Li // offloading, otherwise, just execute on the host. We need to execute on host
5862*67e74705SXin Li // regardless of the conditional in the if clause if, e.g., the user do not
5863*67e74705SXin Li // specify target triples.
5864*67e74705SXin Li if (OutlinedFnID) {
5865*67e74705SXin Li if (IfCond)
5866*67e74705SXin Li emitOMPIfClause(CGF, IfCond, ThenGen, ElseGen);
5867*67e74705SXin Li else {
5868*67e74705SXin Li RegionCodeGenTy ThenRCG(ThenGen);
5869*67e74705SXin Li ThenRCG(CGF);
5870*67e74705SXin Li }
5871*67e74705SXin Li } else {
5872*67e74705SXin Li RegionCodeGenTy ElseRCG(ElseGen);
5873*67e74705SXin Li ElseRCG(CGF);
5874*67e74705SXin Li }
5875*67e74705SXin Li
5876*67e74705SXin Li // Check the error code and execute the host version if required.
5877*67e74705SXin Li auto OffloadFailedBlock = CGF.createBasicBlock("omp_offload.failed");
5878*67e74705SXin Li auto OffloadContBlock = CGF.createBasicBlock("omp_offload.cont");
5879*67e74705SXin Li auto OffloadErrorVal = CGF.EmitLoadOfScalar(OffloadError, SourceLocation());
5880*67e74705SXin Li auto Failed = CGF.Builder.CreateIsNotNull(OffloadErrorVal);
5881*67e74705SXin Li CGF.Builder.CreateCondBr(Failed, OffloadFailedBlock, OffloadContBlock);
5882*67e74705SXin Li
5883*67e74705SXin Li CGF.EmitBlock(OffloadFailedBlock);
5884*67e74705SXin Li CGF.Builder.CreateCall(OutlinedFn, KernelArgs);
5885*67e74705SXin Li CGF.EmitBranch(OffloadContBlock);
5886*67e74705SXin Li
5887*67e74705SXin Li CGF.EmitBlock(OffloadContBlock, /*IsFinished=*/true);
5888*67e74705SXin Li }
5889*67e74705SXin Li
scanForTargetRegionsFunctions(const Stmt * S,StringRef ParentName)5890*67e74705SXin Li void CGOpenMPRuntime::scanForTargetRegionsFunctions(const Stmt *S,
5891*67e74705SXin Li StringRef ParentName) {
5892*67e74705SXin Li if (!S)
5893*67e74705SXin Li return;
5894*67e74705SXin Li
5895*67e74705SXin Li // If we find a OMP target directive, codegen the outline function and
5896*67e74705SXin Li // register the result.
5897*67e74705SXin Li // FIXME: Add other directives with target when they become supported.
5898*67e74705SXin Li bool isTargetDirective = isa<OMPTargetDirective>(S);
5899*67e74705SXin Li
5900*67e74705SXin Li if (isTargetDirective) {
5901*67e74705SXin Li auto *E = cast<OMPExecutableDirective>(S);
5902*67e74705SXin Li unsigned DeviceID;
5903*67e74705SXin Li unsigned FileID;
5904*67e74705SXin Li unsigned Line;
5905*67e74705SXin Li getTargetEntryUniqueInfo(CGM.getContext(), E->getLocStart(), DeviceID,
5906*67e74705SXin Li FileID, Line);
5907*67e74705SXin Li
5908*67e74705SXin Li // Is this a target region that should not be emitted as an entry point? If
5909*67e74705SXin Li // so just signal we are done with this target region.
5910*67e74705SXin Li if (!OffloadEntriesInfoManager.hasTargetRegionEntryInfo(DeviceID, FileID,
5911*67e74705SXin Li ParentName, Line))
5912*67e74705SXin Li return;
5913*67e74705SXin Li
5914*67e74705SXin Li llvm::Function *Fn;
5915*67e74705SXin Li llvm::Constant *Addr;
5916*67e74705SXin Li std::tie(Fn, Addr) =
5917*67e74705SXin Li CodeGenFunction::EmitOMPTargetDirectiveOutlinedFunction(
5918*67e74705SXin Li CGM, cast<OMPTargetDirective>(*E), ParentName,
5919*67e74705SXin Li /*isOffloadEntry=*/true);
5920*67e74705SXin Li assert(Fn && Addr && "Target region emission failed.");
5921*67e74705SXin Li return;
5922*67e74705SXin Li }
5923*67e74705SXin Li
5924*67e74705SXin Li if (const OMPExecutableDirective *E = dyn_cast<OMPExecutableDirective>(S)) {
5925*67e74705SXin Li if (!E->hasAssociatedStmt())
5926*67e74705SXin Li return;
5927*67e74705SXin Li
5928*67e74705SXin Li scanForTargetRegionsFunctions(
5929*67e74705SXin Li cast<CapturedStmt>(E->getAssociatedStmt())->getCapturedStmt(),
5930*67e74705SXin Li ParentName);
5931*67e74705SXin Li return;
5932*67e74705SXin Li }
5933*67e74705SXin Li
5934*67e74705SXin Li // If this is a lambda function, look into its body.
5935*67e74705SXin Li if (auto *L = dyn_cast<LambdaExpr>(S))
5936*67e74705SXin Li S = L->getBody();
5937*67e74705SXin Li
5938*67e74705SXin Li // Keep looking for target regions recursively.
5939*67e74705SXin Li for (auto *II : S->children())
5940*67e74705SXin Li scanForTargetRegionsFunctions(II, ParentName);
5941*67e74705SXin Li }
5942*67e74705SXin Li
emitTargetFunctions(GlobalDecl GD)5943*67e74705SXin Li bool CGOpenMPRuntime::emitTargetFunctions(GlobalDecl GD) {
5944*67e74705SXin Li auto &FD = *cast<FunctionDecl>(GD.getDecl());
5945*67e74705SXin Li
5946*67e74705SXin Li // If emitting code for the host, we do not process FD here. Instead we do
5947*67e74705SXin Li // the normal code generation.
5948*67e74705SXin Li if (!CGM.getLangOpts().OpenMPIsDevice)
5949*67e74705SXin Li return false;
5950*67e74705SXin Li
5951*67e74705SXin Li // Try to detect target regions in the function.
5952*67e74705SXin Li scanForTargetRegionsFunctions(FD.getBody(), CGM.getMangledName(GD));
5953*67e74705SXin Li
5954*67e74705SXin Li // We should not emit any function othen that the ones created during the
5955*67e74705SXin Li // scanning. Therefore, we signal that this function is completely dealt
5956*67e74705SXin Li // with.
5957*67e74705SXin Li return true;
5958*67e74705SXin Li }
5959*67e74705SXin Li
emitTargetGlobalVariable(GlobalDecl GD)5960*67e74705SXin Li bool CGOpenMPRuntime::emitTargetGlobalVariable(GlobalDecl GD) {
5961*67e74705SXin Li if (!CGM.getLangOpts().OpenMPIsDevice)
5962*67e74705SXin Li return false;
5963*67e74705SXin Li
5964*67e74705SXin Li // Check if there are Ctors/Dtors in this declaration and look for target
5965*67e74705SXin Li // regions in it. We use the complete variant to produce the kernel name
5966*67e74705SXin Li // mangling.
5967*67e74705SXin Li QualType RDTy = cast<VarDecl>(GD.getDecl())->getType();
5968*67e74705SXin Li if (auto *RD = RDTy->getBaseElementTypeUnsafe()->getAsCXXRecordDecl()) {
5969*67e74705SXin Li for (auto *Ctor : RD->ctors()) {
5970*67e74705SXin Li StringRef ParentName =
5971*67e74705SXin Li CGM.getMangledName(GlobalDecl(Ctor, Ctor_Complete));
5972*67e74705SXin Li scanForTargetRegionsFunctions(Ctor->getBody(), ParentName);
5973*67e74705SXin Li }
5974*67e74705SXin Li auto *Dtor = RD->getDestructor();
5975*67e74705SXin Li if (Dtor) {
5976*67e74705SXin Li StringRef ParentName =
5977*67e74705SXin Li CGM.getMangledName(GlobalDecl(Dtor, Dtor_Complete));
5978*67e74705SXin Li scanForTargetRegionsFunctions(Dtor->getBody(), ParentName);
5979*67e74705SXin Li }
5980*67e74705SXin Li }
5981*67e74705SXin Li
5982*67e74705SXin Li // If we are in target mode we do not emit any global (declare target is not
5983*67e74705SXin Li // implemented yet). Therefore we signal that GD was processed in this case.
5984*67e74705SXin Li return true;
5985*67e74705SXin Li }
5986*67e74705SXin Li
emitTargetGlobal(GlobalDecl GD)5987*67e74705SXin Li bool CGOpenMPRuntime::emitTargetGlobal(GlobalDecl GD) {
5988*67e74705SXin Li auto *VD = GD.getDecl();
5989*67e74705SXin Li if (isa<FunctionDecl>(VD))
5990*67e74705SXin Li return emitTargetFunctions(GD);
5991*67e74705SXin Li
5992*67e74705SXin Li return emitTargetGlobalVariable(GD);
5993*67e74705SXin Li }
5994*67e74705SXin Li
emitRegistrationFunction()5995*67e74705SXin Li llvm::Function *CGOpenMPRuntime::emitRegistrationFunction() {
5996*67e74705SXin Li // If we have offloading in the current module, we need to emit the entries
5997*67e74705SXin Li // now and register the offloading descriptor.
5998*67e74705SXin Li createOffloadEntriesAndInfoMetadata();
5999*67e74705SXin Li
6000*67e74705SXin Li // Create and register the offloading binary descriptors. This is the main
6001*67e74705SXin Li // entity that captures all the information about offloading in the current
6002*67e74705SXin Li // compilation unit.
6003*67e74705SXin Li return createOffloadingBinaryDescriptorRegistration();
6004*67e74705SXin Li }
6005*67e74705SXin Li
emitTeamsCall(CodeGenFunction & CGF,const OMPExecutableDirective & D,SourceLocation Loc,llvm::Value * OutlinedFn,ArrayRef<llvm::Value * > CapturedVars)6006*67e74705SXin Li void CGOpenMPRuntime::emitTeamsCall(CodeGenFunction &CGF,
6007*67e74705SXin Li const OMPExecutableDirective &D,
6008*67e74705SXin Li SourceLocation Loc,
6009*67e74705SXin Li llvm::Value *OutlinedFn,
6010*67e74705SXin Li ArrayRef<llvm::Value *> CapturedVars) {
6011*67e74705SXin Li if (!CGF.HaveInsertPoint())
6012*67e74705SXin Li return;
6013*67e74705SXin Li
6014*67e74705SXin Li auto *RTLoc = emitUpdateLocation(CGF, Loc);
6015*67e74705SXin Li CodeGenFunction::RunCleanupsScope Scope(CGF);
6016*67e74705SXin Li
6017*67e74705SXin Li // Build call __kmpc_fork_teams(loc, n, microtask, var1, .., varn);
6018*67e74705SXin Li llvm::Value *Args[] = {
6019*67e74705SXin Li RTLoc,
6020*67e74705SXin Li CGF.Builder.getInt32(CapturedVars.size()), // Number of captured vars
6021*67e74705SXin Li CGF.Builder.CreateBitCast(OutlinedFn, getKmpc_MicroPointerTy())};
6022*67e74705SXin Li llvm::SmallVector<llvm::Value *, 16> RealArgs;
6023*67e74705SXin Li RealArgs.append(std::begin(Args), std::end(Args));
6024*67e74705SXin Li RealArgs.append(CapturedVars.begin(), CapturedVars.end());
6025*67e74705SXin Li
6026*67e74705SXin Li auto RTLFn = createRuntimeFunction(OMPRTL__kmpc_fork_teams);
6027*67e74705SXin Li CGF.EmitRuntimeCall(RTLFn, RealArgs);
6028*67e74705SXin Li }
6029*67e74705SXin Li
emitNumTeamsClause(CodeGenFunction & CGF,const Expr * NumTeams,const Expr * ThreadLimit,SourceLocation Loc)6030*67e74705SXin Li void CGOpenMPRuntime::emitNumTeamsClause(CodeGenFunction &CGF,
6031*67e74705SXin Li const Expr *NumTeams,
6032*67e74705SXin Li const Expr *ThreadLimit,
6033*67e74705SXin Li SourceLocation Loc) {
6034*67e74705SXin Li if (!CGF.HaveInsertPoint())
6035*67e74705SXin Li return;
6036*67e74705SXin Li
6037*67e74705SXin Li auto *RTLoc = emitUpdateLocation(CGF, Loc);
6038*67e74705SXin Li
6039*67e74705SXin Li llvm::Value *NumTeamsVal =
6040*67e74705SXin Li (NumTeams)
6041*67e74705SXin Li ? CGF.Builder.CreateIntCast(CGF.EmitScalarExpr(NumTeams),
6042*67e74705SXin Li CGF.CGM.Int32Ty, /* isSigned = */ true)
6043*67e74705SXin Li : CGF.Builder.getInt32(0);
6044*67e74705SXin Li
6045*67e74705SXin Li llvm::Value *ThreadLimitVal =
6046*67e74705SXin Li (ThreadLimit)
6047*67e74705SXin Li ? CGF.Builder.CreateIntCast(CGF.EmitScalarExpr(ThreadLimit),
6048*67e74705SXin Li CGF.CGM.Int32Ty, /* isSigned = */ true)
6049*67e74705SXin Li : CGF.Builder.getInt32(0);
6050*67e74705SXin Li
6051*67e74705SXin Li // Build call __kmpc_push_num_teamss(&loc, global_tid, num_teams, thread_limit)
6052*67e74705SXin Li llvm::Value *PushNumTeamsArgs[] = {RTLoc, getThreadID(CGF, Loc), NumTeamsVal,
6053*67e74705SXin Li ThreadLimitVal};
6054*67e74705SXin Li CGF.EmitRuntimeCall(createRuntimeFunction(OMPRTL__kmpc_push_num_teams),
6055*67e74705SXin Li PushNumTeamsArgs);
6056*67e74705SXin Li }
6057*67e74705SXin Li
emitTargetDataCalls(CodeGenFunction & CGF,const OMPExecutableDirective & D,const Expr * IfCond,const Expr * Device,const RegionCodeGenTy & CodeGen)6058*67e74705SXin Li void CGOpenMPRuntime::emitTargetDataCalls(CodeGenFunction &CGF,
6059*67e74705SXin Li const OMPExecutableDirective &D,
6060*67e74705SXin Li const Expr *IfCond,
6061*67e74705SXin Li const Expr *Device,
6062*67e74705SXin Li const RegionCodeGenTy &CodeGen) {
6063*67e74705SXin Li
6064*67e74705SXin Li if (!CGF.HaveInsertPoint())
6065*67e74705SXin Li return;
6066*67e74705SXin Li
6067*67e74705SXin Li llvm::Value *BasePointersArray = nullptr;
6068*67e74705SXin Li llvm::Value *PointersArray = nullptr;
6069*67e74705SXin Li llvm::Value *SizesArray = nullptr;
6070*67e74705SXin Li llvm::Value *MapTypesArray = nullptr;
6071*67e74705SXin Li unsigned NumOfPtrs = 0;
6072*67e74705SXin Li
6073*67e74705SXin Li // Generate the code for the opening of the data environment. Capture all the
6074*67e74705SXin Li // arguments of the runtime call by reference because they are used in the
6075*67e74705SXin Li // closing of the region.
6076*67e74705SXin Li auto &&BeginThenGen = [this, &D, &BasePointersArray, &PointersArray,
6077*67e74705SXin Li &SizesArray, &MapTypesArray, Device,
6078*67e74705SXin Li &NumOfPtrs](CodeGenFunction &CGF, PrePostActionTy &) {
6079*67e74705SXin Li // Fill up the arrays with all the mapped variables.
6080*67e74705SXin Li MappableExprsHandler::MapValuesArrayTy BasePointers;
6081*67e74705SXin Li MappableExprsHandler::MapValuesArrayTy Pointers;
6082*67e74705SXin Li MappableExprsHandler::MapValuesArrayTy Sizes;
6083*67e74705SXin Li MappableExprsHandler::MapFlagsArrayTy MapTypes;
6084*67e74705SXin Li
6085*67e74705SXin Li // Get map clause information.
6086*67e74705SXin Li MappableExprsHandler MCHandler(D, CGF);
6087*67e74705SXin Li MCHandler.generateAllInfo(BasePointers, Pointers, Sizes, MapTypes);
6088*67e74705SXin Li NumOfPtrs = BasePointers.size();
6089*67e74705SXin Li
6090*67e74705SXin Li // Fill up the arrays and create the arguments.
6091*67e74705SXin Li emitOffloadingArrays(CGF, BasePointersArray, PointersArray, SizesArray,
6092*67e74705SXin Li MapTypesArray, BasePointers, Pointers, Sizes,
6093*67e74705SXin Li MapTypes);
6094*67e74705SXin Li
6095*67e74705SXin Li llvm::Value *BasePointersArrayArg = nullptr;
6096*67e74705SXin Li llvm::Value *PointersArrayArg = nullptr;
6097*67e74705SXin Li llvm::Value *SizesArrayArg = nullptr;
6098*67e74705SXin Li llvm::Value *MapTypesArrayArg = nullptr;
6099*67e74705SXin Li emitOffloadingArraysArgument(CGF, BasePointersArrayArg, PointersArrayArg,
6100*67e74705SXin Li SizesArrayArg, MapTypesArrayArg,
6101*67e74705SXin Li BasePointersArray, PointersArray, SizesArray,
6102*67e74705SXin Li MapTypesArray, NumOfPtrs);
6103*67e74705SXin Li
6104*67e74705SXin Li // Emit device ID if any.
6105*67e74705SXin Li llvm::Value *DeviceID = nullptr;
6106*67e74705SXin Li if (Device)
6107*67e74705SXin Li DeviceID = CGF.Builder.CreateIntCast(CGF.EmitScalarExpr(Device),
6108*67e74705SXin Li CGF.Int32Ty, /*isSigned=*/true);
6109*67e74705SXin Li else
6110*67e74705SXin Li DeviceID = CGF.Builder.getInt32(OMP_DEVICEID_UNDEF);
6111*67e74705SXin Li
6112*67e74705SXin Li // Emit the number of elements in the offloading arrays.
6113*67e74705SXin Li auto *PointerNum = CGF.Builder.getInt32(NumOfPtrs);
6114*67e74705SXin Li
6115*67e74705SXin Li llvm::Value *OffloadingArgs[] = {
6116*67e74705SXin Li DeviceID, PointerNum, BasePointersArrayArg,
6117*67e74705SXin Li PointersArrayArg, SizesArrayArg, MapTypesArrayArg};
6118*67e74705SXin Li auto &RT = CGF.CGM.getOpenMPRuntime();
6119*67e74705SXin Li CGF.EmitRuntimeCall(RT.createRuntimeFunction(OMPRTL__tgt_target_data_begin),
6120*67e74705SXin Li OffloadingArgs);
6121*67e74705SXin Li };
6122*67e74705SXin Li
6123*67e74705SXin Li // Generate code for the closing of the data region.
6124*67e74705SXin Li auto &&EndThenGen = [this, &BasePointersArray, &PointersArray, &SizesArray,
6125*67e74705SXin Li &MapTypesArray, Device,
6126*67e74705SXin Li &NumOfPtrs](CodeGenFunction &CGF, PrePostActionTy &) {
6127*67e74705SXin Li assert(BasePointersArray && PointersArray && SizesArray && MapTypesArray &&
6128*67e74705SXin Li NumOfPtrs && "Invalid data environment closing arguments.");
6129*67e74705SXin Li
6130*67e74705SXin Li llvm::Value *BasePointersArrayArg = nullptr;
6131*67e74705SXin Li llvm::Value *PointersArrayArg = nullptr;
6132*67e74705SXin Li llvm::Value *SizesArrayArg = nullptr;
6133*67e74705SXin Li llvm::Value *MapTypesArrayArg = nullptr;
6134*67e74705SXin Li emitOffloadingArraysArgument(CGF, BasePointersArrayArg, PointersArrayArg,
6135*67e74705SXin Li SizesArrayArg, MapTypesArrayArg,
6136*67e74705SXin Li BasePointersArray, PointersArray, SizesArray,
6137*67e74705SXin Li MapTypesArray, NumOfPtrs);
6138*67e74705SXin Li
6139*67e74705SXin Li // Emit device ID if any.
6140*67e74705SXin Li llvm::Value *DeviceID = nullptr;
6141*67e74705SXin Li if (Device)
6142*67e74705SXin Li DeviceID = CGF.Builder.CreateIntCast(CGF.EmitScalarExpr(Device),
6143*67e74705SXin Li CGF.Int32Ty, /*isSigned=*/true);
6144*67e74705SXin Li else
6145*67e74705SXin Li DeviceID = CGF.Builder.getInt32(OMP_DEVICEID_UNDEF);
6146*67e74705SXin Li
6147*67e74705SXin Li // Emit the number of elements in the offloading arrays.
6148*67e74705SXin Li auto *PointerNum = CGF.Builder.getInt32(NumOfPtrs);
6149*67e74705SXin Li
6150*67e74705SXin Li llvm::Value *OffloadingArgs[] = {
6151*67e74705SXin Li DeviceID, PointerNum, BasePointersArrayArg,
6152*67e74705SXin Li PointersArrayArg, SizesArrayArg, MapTypesArrayArg};
6153*67e74705SXin Li auto &RT = CGF.CGM.getOpenMPRuntime();
6154*67e74705SXin Li CGF.EmitRuntimeCall(RT.createRuntimeFunction(OMPRTL__tgt_target_data_end),
6155*67e74705SXin Li OffloadingArgs);
6156*67e74705SXin Li };
6157*67e74705SXin Li
6158*67e74705SXin Li // In the event we get an if clause, we don't have to take any action on the
6159*67e74705SXin Li // else side.
6160*67e74705SXin Li auto &&ElseGen = [](CodeGenFunction &CGF, PrePostActionTy &) {};
6161*67e74705SXin Li
6162*67e74705SXin Li if (IfCond) {
6163*67e74705SXin Li emitOMPIfClause(CGF, IfCond, BeginThenGen, ElseGen);
6164*67e74705SXin Li } else {
6165*67e74705SXin Li RegionCodeGenTy BeginThenRCG(BeginThenGen);
6166*67e74705SXin Li BeginThenRCG(CGF);
6167*67e74705SXin Li }
6168*67e74705SXin Li
6169*67e74705SXin Li CGM.getOpenMPRuntime().emitInlinedDirective(CGF, OMPD_target_data, CodeGen);
6170*67e74705SXin Li
6171*67e74705SXin Li if (IfCond) {
6172*67e74705SXin Li emitOMPIfClause(CGF, IfCond, EndThenGen, ElseGen);
6173*67e74705SXin Li } else {
6174*67e74705SXin Li RegionCodeGenTy EndThenRCG(EndThenGen);
6175*67e74705SXin Li EndThenRCG(CGF);
6176*67e74705SXin Li }
6177*67e74705SXin Li }
6178*67e74705SXin Li
emitTargetDataStandAloneCall(CodeGenFunction & CGF,const OMPExecutableDirective & D,const Expr * IfCond,const Expr * Device)6179*67e74705SXin Li void CGOpenMPRuntime::emitTargetDataStandAloneCall(
6180*67e74705SXin Li CodeGenFunction &CGF, const OMPExecutableDirective &D, const Expr *IfCond,
6181*67e74705SXin Li const Expr *Device) {
6182*67e74705SXin Li if (!CGF.HaveInsertPoint())
6183*67e74705SXin Li return;
6184*67e74705SXin Li
6185*67e74705SXin Li assert((isa<OMPTargetEnterDataDirective>(D) ||
6186*67e74705SXin Li isa<OMPTargetExitDataDirective>(D) ||
6187*67e74705SXin Li isa<OMPTargetUpdateDirective>(D)) &&
6188*67e74705SXin Li "Expecting either target enter, exit data, or update directives.");
6189*67e74705SXin Li
6190*67e74705SXin Li // Generate the code for the opening of the data environment.
6191*67e74705SXin Li auto &&ThenGen = [this, &D, Device](CodeGenFunction &CGF, PrePostActionTy &) {
6192*67e74705SXin Li // Fill up the arrays with all the mapped variables.
6193*67e74705SXin Li MappableExprsHandler::MapValuesArrayTy BasePointers;
6194*67e74705SXin Li MappableExprsHandler::MapValuesArrayTy Pointers;
6195*67e74705SXin Li MappableExprsHandler::MapValuesArrayTy Sizes;
6196*67e74705SXin Li MappableExprsHandler::MapFlagsArrayTy MapTypes;
6197*67e74705SXin Li
6198*67e74705SXin Li // Get map clause information.
6199*67e74705SXin Li MappableExprsHandler MEHandler(D, CGF);
6200*67e74705SXin Li MEHandler.generateAllInfo(BasePointers, Pointers, Sizes, MapTypes);
6201*67e74705SXin Li
6202*67e74705SXin Li llvm::Value *BasePointersArrayArg = nullptr;
6203*67e74705SXin Li llvm::Value *PointersArrayArg = nullptr;
6204*67e74705SXin Li llvm::Value *SizesArrayArg = nullptr;
6205*67e74705SXin Li llvm::Value *MapTypesArrayArg = nullptr;
6206*67e74705SXin Li
6207*67e74705SXin Li // Fill up the arrays and create the arguments.
6208*67e74705SXin Li emitOffloadingArrays(CGF, BasePointersArrayArg, PointersArrayArg,
6209*67e74705SXin Li SizesArrayArg, MapTypesArrayArg, BasePointers,
6210*67e74705SXin Li Pointers, Sizes, MapTypes);
6211*67e74705SXin Li emitOffloadingArraysArgument(
6212*67e74705SXin Li CGF, BasePointersArrayArg, PointersArrayArg, SizesArrayArg,
6213*67e74705SXin Li MapTypesArrayArg, BasePointersArrayArg, PointersArrayArg, SizesArrayArg,
6214*67e74705SXin Li MapTypesArrayArg, BasePointers.size());
6215*67e74705SXin Li
6216*67e74705SXin Li // Emit device ID if any.
6217*67e74705SXin Li llvm::Value *DeviceID = nullptr;
6218*67e74705SXin Li if (Device)
6219*67e74705SXin Li DeviceID = CGF.Builder.CreateIntCast(CGF.EmitScalarExpr(Device),
6220*67e74705SXin Li CGF.Int32Ty, /*isSigned=*/true);
6221*67e74705SXin Li else
6222*67e74705SXin Li DeviceID = CGF.Builder.getInt32(OMP_DEVICEID_UNDEF);
6223*67e74705SXin Li
6224*67e74705SXin Li // Emit the number of elements in the offloading arrays.
6225*67e74705SXin Li auto *PointerNum = CGF.Builder.getInt32(BasePointers.size());
6226*67e74705SXin Li
6227*67e74705SXin Li llvm::Value *OffloadingArgs[] = {
6228*67e74705SXin Li DeviceID, PointerNum, BasePointersArrayArg,
6229*67e74705SXin Li PointersArrayArg, SizesArrayArg, MapTypesArrayArg};
6230*67e74705SXin Li
6231*67e74705SXin Li auto &RT = CGF.CGM.getOpenMPRuntime();
6232*67e74705SXin Li // Select the right runtime function call for each expected standalone
6233*67e74705SXin Li // directive.
6234*67e74705SXin Li OpenMPRTLFunction RTLFn;
6235*67e74705SXin Li switch (D.getDirectiveKind()) {
6236*67e74705SXin Li default:
6237*67e74705SXin Li llvm_unreachable("Unexpected standalone target data directive.");
6238*67e74705SXin Li break;
6239*67e74705SXin Li case OMPD_target_enter_data:
6240*67e74705SXin Li RTLFn = OMPRTL__tgt_target_data_begin;
6241*67e74705SXin Li break;
6242*67e74705SXin Li case OMPD_target_exit_data:
6243*67e74705SXin Li RTLFn = OMPRTL__tgt_target_data_end;
6244*67e74705SXin Li break;
6245*67e74705SXin Li case OMPD_target_update:
6246*67e74705SXin Li RTLFn = OMPRTL__tgt_target_data_update;
6247*67e74705SXin Li break;
6248*67e74705SXin Li }
6249*67e74705SXin Li CGF.EmitRuntimeCall(RT.createRuntimeFunction(RTLFn), OffloadingArgs);
6250*67e74705SXin Li };
6251*67e74705SXin Li
6252*67e74705SXin Li // In the event we get an if clause, we don't have to take any action on the
6253*67e74705SXin Li // else side.
6254*67e74705SXin Li auto &&ElseGen = [](CodeGenFunction &CGF, PrePostActionTy &) {};
6255*67e74705SXin Li
6256*67e74705SXin Li if (IfCond) {
6257*67e74705SXin Li emitOMPIfClause(CGF, IfCond, ThenGen, ElseGen);
6258*67e74705SXin Li } else {
6259*67e74705SXin Li RegionCodeGenTy ThenGenRCG(ThenGen);
6260*67e74705SXin Li ThenGenRCG(CGF);
6261*67e74705SXin Li }
6262*67e74705SXin Li }
6263*67e74705SXin Li
6264*67e74705SXin Li namespace {
6265*67e74705SXin Li /// Kind of parameter in a function with 'declare simd' directive.
6266*67e74705SXin Li enum ParamKindTy { LinearWithVarStride, Linear, Uniform, Vector };
6267*67e74705SXin Li /// Attribute set of the parameter.
6268*67e74705SXin Li struct ParamAttrTy {
6269*67e74705SXin Li ParamKindTy Kind = Vector;
6270*67e74705SXin Li llvm::APSInt StrideOrArg;
6271*67e74705SXin Li llvm::APSInt Alignment;
6272*67e74705SXin Li };
6273*67e74705SXin Li } // namespace
6274*67e74705SXin Li
evaluateCDTSize(const FunctionDecl * FD,ArrayRef<ParamAttrTy> ParamAttrs)6275*67e74705SXin Li static unsigned evaluateCDTSize(const FunctionDecl *FD,
6276*67e74705SXin Li ArrayRef<ParamAttrTy> ParamAttrs) {
6277*67e74705SXin Li // Every vector variant of a SIMD-enabled function has a vector length (VLEN).
6278*67e74705SXin Li // If OpenMP clause "simdlen" is used, the VLEN is the value of the argument
6279*67e74705SXin Li // of that clause. The VLEN value must be power of 2.
6280*67e74705SXin Li // In other case the notion of the function`s "characteristic data type" (CDT)
6281*67e74705SXin Li // is used to compute the vector length.
6282*67e74705SXin Li // CDT is defined in the following order:
6283*67e74705SXin Li // a) For non-void function, the CDT is the return type.
6284*67e74705SXin Li // b) If the function has any non-uniform, non-linear parameters, then the
6285*67e74705SXin Li // CDT is the type of the first such parameter.
6286*67e74705SXin Li // c) If the CDT determined by a) or b) above is struct, union, or class
6287*67e74705SXin Li // type which is pass-by-value (except for the type that maps to the
6288*67e74705SXin Li // built-in complex data type), the characteristic data type is int.
6289*67e74705SXin Li // d) If none of the above three cases is applicable, the CDT is int.
6290*67e74705SXin Li // The VLEN is then determined based on the CDT and the size of vector
6291*67e74705SXin Li // register of that ISA for which current vector version is generated. The
6292*67e74705SXin Li // VLEN is computed using the formula below:
6293*67e74705SXin Li // VLEN = sizeof(vector_register) / sizeof(CDT),
6294*67e74705SXin Li // where vector register size specified in section 3.2.1 Registers and the
6295*67e74705SXin Li // Stack Frame of original AMD64 ABI document.
6296*67e74705SXin Li QualType RetType = FD->getReturnType();
6297*67e74705SXin Li if (RetType.isNull())
6298*67e74705SXin Li return 0;
6299*67e74705SXin Li ASTContext &C = FD->getASTContext();
6300*67e74705SXin Li QualType CDT;
6301*67e74705SXin Li if (!RetType.isNull() && !RetType->isVoidType())
6302*67e74705SXin Li CDT = RetType;
6303*67e74705SXin Li else {
6304*67e74705SXin Li unsigned Offset = 0;
6305*67e74705SXin Li if (auto *MD = dyn_cast<CXXMethodDecl>(FD)) {
6306*67e74705SXin Li if (ParamAttrs[Offset].Kind == Vector)
6307*67e74705SXin Li CDT = C.getPointerType(C.getRecordType(MD->getParent()));
6308*67e74705SXin Li ++Offset;
6309*67e74705SXin Li }
6310*67e74705SXin Li if (CDT.isNull()) {
6311*67e74705SXin Li for (unsigned I = 0, E = FD->getNumParams(); I < E; ++I) {
6312*67e74705SXin Li if (ParamAttrs[I + Offset].Kind == Vector) {
6313*67e74705SXin Li CDT = FD->getParamDecl(I)->getType();
6314*67e74705SXin Li break;
6315*67e74705SXin Li }
6316*67e74705SXin Li }
6317*67e74705SXin Li }
6318*67e74705SXin Li }
6319*67e74705SXin Li if (CDT.isNull())
6320*67e74705SXin Li CDT = C.IntTy;
6321*67e74705SXin Li CDT = CDT->getCanonicalTypeUnqualified();
6322*67e74705SXin Li if (CDT->isRecordType() || CDT->isUnionType())
6323*67e74705SXin Li CDT = C.IntTy;
6324*67e74705SXin Li return C.getTypeSize(CDT);
6325*67e74705SXin Li }
6326*67e74705SXin Li
6327*67e74705SXin Li static void
emitX86DeclareSimdFunction(const FunctionDecl * FD,llvm::Function * Fn,llvm::APSInt VLENVal,ArrayRef<ParamAttrTy> ParamAttrs,OMPDeclareSimdDeclAttr::BranchStateTy State)6328*67e74705SXin Li emitX86DeclareSimdFunction(const FunctionDecl *FD, llvm::Function *Fn,
6329*67e74705SXin Li llvm::APSInt VLENVal,
6330*67e74705SXin Li ArrayRef<ParamAttrTy> ParamAttrs,
6331*67e74705SXin Li OMPDeclareSimdDeclAttr::BranchStateTy State) {
6332*67e74705SXin Li struct ISADataTy {
6333*67e74705SXin Li char ISA;
6334*67e74705SXin Li unsigned VecRegSize;
6335*67e74705SXin Li };
6336*67e74705SXin Li ISADataTy ISAData[] = {
6337*67e74705SXin Li {
6338*67e74705SXin Li 'b', 128
6339*67e74705SXin Li }, // SSE
6340*67e74705SXin Li {
6341*67e74705SXin Li 'c', 256
6342*67e74705SXin Li }, // AVX
6343*67e74705SXin Li {
6344*67e74705SXin Li 'd', 256
6345*67e74705SXin Li }, // AVX2
6346*67e74705SXin Li {
6347*67e74705SXin Li 'e', 512
6348*67e74705SXin Li }, // AVX512
6349*67e74705SXin Li };
6350*67e74705SXin Li llvm::SmallVector<char, 2> Masked;
6351*67e74705SXin Li switch (State) {
6352*67e74705SXin Li case OMPDeclareSimdDeclAttr::BS_Undefined:
6353*67e74705SXin Li Masked.push_back('N');
6354*67e74705SXin Li Masked.push_back('M');
6355*67e74705SXin Li break;
6356*67e74705SXin Li case OMPDeclareSimdDeclAttr::BS_Notinbranch:
6357*67e74705SXin Li Masked.push_back('N');
6358*67e74705SXin Li break;
6359*67e74705SXin Li case OMPDeclareSimdDeclAttr::BS_Inbranch:
6360*67e74705SXin Li Masked.push_back('M');
6361*67e74705SXin Li break;
6362*67e74705SXin Li }
6363*67e74705SXin Li for (auto Mask : Masked) {
6364*67e74705SXin Li for (auto &Data : ISAData) {
6365*67e74705SXin Li SmallString<256> Buffer;
6366*67e74705SXin Li llvm::raw_svector_ostream Out(Buffer);
6367*67e74705SXin Li Out << "_ZGV" << Data.ISA << Mask;
6368*67e74705SXin Li if (!VLENVal) {
6369*67e74705SXin Li Out << llvm::APSInt::getUnsigned(Data.VecRegSize /
6370*67e74705SXin Li evaluateCDTSize(FD, ParamAttrs));
6371*67e74705SXin Li } else
6372*67e74705SXin Li Out << VLENVal;
6373*67e74705SXin Li for (auto &ParamAttr : ParamAttrs) {
6374*67e74705SXin Li switch (ParamAttr.Kind){
6375*67e74705SXin Li case LinearWithVarStride:
6376*67e74705SXin Li Out << 's' << ParamAttr.StrideOrArg;
6377*67e74705SXin Li break;
6378*67e74705SXin Li case Linear:
6379*67e74705SXin Li Out << 'l';
6380*67e74705SXin Li if (!!ParamAttr.StrideOrArg)
6381*67e74705SXin Li Out << ParamAttr.StrideOrArg;
6382*67e74705SXin Li break;
6383*67e74705SXin Li case Uniform:
6384*67e74705SXin Li Out << 'u';
6385*67e74705SXin Li break;
6386*67e74705SXin Li case Vector:
6387*67e74705SXin Li Out << 'v';
6388*67e74705SXin Li break;
6389*67e74705SXin Li }
6390*67e74705SXin Li if (!!ParamAttr.Alignment)
6391*67e74705SXin Li Out << 'a' << ParamAttr.Alignment;
6392*67e74705SXin Li }
6393*67e74705SXin Li Out << '_' << Fn->getName();
6394*67e74705SXin Li Fn->addFnAttr(Out.str());
6395*67e74705SXin Li }
6396*67e74705SXin Li }
6397*67e74705SXin Li }
6398*67e74705SXin Li
emitDeclareSimdFunction(const FunctionDecl * FD,llvm::Function * Fn)6399*67e74705SXin Li void CGOpenMPRuntime::emitDeclareSimdFunction(const FunctionDecl *FD,
6400*67e74705SXin Li llvm::Function *Fn) {
6401*67e74705SXin Li ASTContext &C = CGM.getContext();
6402*67e74705SXin Li FD = FD->getCanonicalDecl();
6403*67e74705SXin Li // Map params to their positions in function decl.
6404*67e74705SXin Li llvm::DenseMap<const Decl *, unsigned> ParamPositions;
6405*67e74705SXin Li if (isa<CXXMethodDecl>(FD))
6406*67e74705SXin Li ParamPositions.insert({FD, 0});
6407*67e74705SXin Li unsigned ParamPos = ParamPositions.size();
6408*67e74705SXin Li for (auto *P : FD->parameters()) {
6409*67e74705SXin Li ParamPositions.insert({P->getCanonicalDecl(), ParamPos});
6410*67e74705SXin Li ++ParamPos;
6411*67e74705SXin Li }
6412*67e74705SXin Li for (auto *Attr : FD->specific_attrs<OMPDeclareSimdDeclAttr>()) {
6413*67e74705SXin Li llvm::SmallVector<ParamAttrTy, 8> ParamAttrs(ParamPositions.size());
6414*67e74705SXin Li // Mark uniform parameters.
6415*67e74705SXin Li for (auto *E : Attr->uniforms()) {
6416*67e74705SXin Li E = E->IgnoreParenImpCasts();
6417*67e74705SXin Li unsigned Pos;
6418*67e74705SXin Li if (isa<CXXThisExpr>(E))
6419*67e74705SXin Li Pos = ParamPositions[FD];
6420*67e74705SXin Li else {
6421*67e74705SXin Li auto *PVD = cast<ParmVarDecl>(cast<DeclRefExpr>(E)->getDecl())
6422*67e74705SXin Li ->getCanonicalDecl();
6423*67e74705SXin Li Pos = ParamPositions[PVD];
6424*67e74705SXin Li }
6425*67e74705SXin Li ParamAttrs[Pos].Kind = Uniform;
6426*67e74705SXin Li }
6427*67e74705SXin Li // Get alignment info.
6428*67e74705SXin Li auto NI = Attr->alignments_begin();
6429*67e74705SXin Li for (auto *E : Attr->aligneds()) {
6430*67e74705SXin Li E = E->IgnoreParenImpCasts();
6431*67e74705SXin Li unsigned Pos;
6432*67e74705SXin Li QualType ParmTy;
6433*67e74705SXin Li if (isa<CXXThisExpr>(E)) {
6434*67e74705SXin Li Pos = ParamPositions[FD];
6435*67e74705SXin Li ParmTy = E->getType();
6436*67e74705SXin Li } else {
6437*67e74705SXin Li auto *PVD = cast<ParmVarDecl>(cast<DeclRefExpr>(E)->getDecl())
6438*67e74705SXin Li ->getCanonicalDecl();
6439*67e74705SXin Li Pos = ParamPositions[PVD];
6440*67e74705SXin Li ParmTy = PVD->getType();
6441*67e74705SXin Li }
6442*67e74705SXin Li ParamAttrs[Pos].Alignment =
6443*67e74705SXin Li (*NI) ? (*NI)->EvaluateKnownConstInt(C)
6444*67e74705SXin Li : llvm::APSInt::getUnsigned(
6445*67e74705SXin Li C.toCharUnitsFromBits(C.getOpenMPDefaultSimdAlign(ParmTy))
6446*67e74705SXin Li .getQuantity());
6447*67e74705SXin Li ++NI;
6448*67e74705SXin Li }
6449*67e74705SXin Li // Mark linear parameters.
6450*67e74705SXin Li auto SI = Attr->steps_begin();
6451*67e74705SXin Li auto MI = Attr->modifiers_begin();
6452*67e74705SXin Li for (auto *E : Attr->linears()) {
6453*67e74705SXin Li E = E->IgnoreParenImpCasts();
6454*67e74705SXin Li unsigned Pos;
6455*67e74705SXin Li if (isa<CXXThisExpr>(E))
6456*67e74705SXin Li Pos = ParamPositions[FD];
6457*67e74705SXin Li else {
6458*67e74705SXin Li auto *PVD = cast<ParmVarDecl>(cast<DeclRefExpr>(E)->getDecl())
6459*67e74705SXin Li ->getCanonicalDecl();
6460*67e74705SXin Li Pos = ParamPositions[PVD];
6461*67e74705SXin Li }
6462*67e74705SXin Li auto &ParamAttr = ParamAttrs[Pos];
6463*67e74705SXin Li ParamAttr.Kind = Linear;
6464*67e74705SXin Li if (*SI) {
6465*67e74705SXin Li if (!(*SI)->EvaluateAsInt(ParamAttr.StrideOrArg, C,
6466*67e74705SXin Li Expr::SE_AllowSideEffects)) {
6467*67e74705SXin Li if (auto *DRE = cast<DeclRefExpr>((*SI)->IgnoreParenImpCasts())) {
6468*67e74705SXin Li if (auto *StridePVD = cast<ParmVarDecl>(DRE->getDecl())) {
6469*67e74705SXin Li ParamAttr.Kind = LinearWithVarStride;
6470*67e74705SXin Li ParamAttr.StrideOrArg = llvm::APSInt::getUnsigned(
6471*67e74705SXin Li ParamPositions[StridePVD->getCanonicalDecl()]);
6472*67e74705SXin Li }
6473*67e74705SXin Li }
6474*67e74705SXin Li }
6475*67e74705SXin Li }
6476*67e74705SXin Li ++SI;
6477*67e74705SXin Li ++MI;
6478*67e74705SXin Li }
6479*67e74705SXin Li llvm::APSInt VLENVal;
6480*67e74705SXin Li if (const Expr *VLEN = Attr->getSimdlen())
6481*67e74705SXin Li VLENVal = VLEN->EvaluateKnownConstInt(C);
6482*67e74705SXin Li OMPDeclareSimdDeclAttr::BranchStateTy State = Attr->getBranchState();
6483*67e74705SXin Li if (CGM.getTriple().getArch() == llvm::Triple::x86 ||
6484*67e74705SXin Li CGM.getTriple().getArch() == llvm::Triple::x86_64)
6485*67e74705SXin Li emitX86DeclareSimdFunction(FD, Fn, VLENVal, ParamAttrs, State);
6486*67e74705SXin Li }
6487*67e74705SXin Li }
6488*67e74705SXin Li
6489*67e74705SXin Li namespace {
6490*67e74705SXin Li /// Cleanup action for doacross support.
6491*67e74705SXin Li class DoacrossCleanupTy final : public EHScopeStack::Cleanup {
6492*67e74705SXin Li public:
6493*67e74705SXin Li static const int DoacrossFinArgs = 2;
6494*67e74705SXin Li
6495*67e74705SXin Li private:
6496*67e74705SXin Li llvm::Value *RTLFn;
6497*67e74705SXin Li llvm::Value *Args[DoacrossFinArgs];
6498*67e74705SXin Li
6499*67e74705SXin Li public:
DoacrossCleanupTy(llvm::Value * RTLFn,ArrayRef<llvm::Value * > CallArgs)6500*67e74705SXin Li DoacrossCleanupTy(llvm::Value *RTLFn, ArrayRef<llvm::Value *> CallArgs)
6501*67e74705SXin Li : RTLFn(RTLFn) {
6502*67e74705SXin Li assert(CallArgs.size() == DoacrossFinArgs);
6503*67e74705SXin Li std::copy(CallArgs.begin(), CallArgs.end(), std::begin(Args));
6504*67e74705SXin Li }
Emit(CodeGenFunction & CGF,Flags)6505*67e74705SXin Li void Emit(CodeGenFunction &CGF, Flags /*flags*/) override {
6506*67e74705SXin Li if (!CGF.HaveInsertPoint())
6507*67e74705SXin Li return;
6508*67e74705SXin Li CGF.EmitRuntimeCall(RTLFn, Args);
6509*67e74705SXin Li }
6510*67e74705SXin Li };
6511*67e74705SXin Li } // namespace
6512*67e74705SXin Li
emitDoacrossInit(CodeGenFunction & CGF,const OMPLoopDirective & D)6513*67e74705SXin Li void CGOpenMPRuntime::emitDoacrossInit(CodeGenFunction &CGF,
6514*67e74705SXin Li const OMPLoopDirective &D) {
6515*67e74705SXin Li if (!CGF.HaveInsertPoint())
6516*67e74705SXin Li return;
6517*67e74705SXin Li
6518*67e74705SXin Li ASTContext &C = CGM.getContext();
6519*67e74705SXin Li QualType Int64Ty = C.getIntTypeForBitwidth(/*DestWidth=*/64, /*Signed=*/true);
6520*67e74705SXin Li RecordDecl *RD;
6521*67e74705SXin Li if (KmpDimTy.isNull()) {
6522*67e74705SXin Li // Build struct kmp_dim { // loop bounds info casted to kmp_int64
6523*67e74705SXin Li // kmp_int64 lo; // lower
6524*67e74705SXin Li // kmp_int64 up; // upper
6525*67e74705SXin Li // kmp_int64 st; // stride
6526*67e74705SXin Li // };
6527*67e74705SXin Li RD = C.buildImplicitRecord("kmp_dim");
6528*67e74705SXin Li RD->startDefinition();
6529*67e74705SXin Li addFieldToRecordDecl(C, RD, Int64Ty);
6530*67e74705SXin Li addFieldToRecordDecl(C, RD, Int64Ty);
6531*67e74705SXin Li addFieldToRecordDecl(C, RD, Int64Ty);
6532*67e74705SXin Li RD->completeDefinition();
6533*67e74705SXin Li KmpDimTy = C.getRecordType(RD);
6534*67e74705SXin Li } else
6535*67e74705SXin Li RD = cast<RecordDecl>(KmpDimTy->getAsTagDecl());
6536*67e74705SXin Li
6537*67e74705SXin Li Address DimsAddr = CGF.CreateMemTemp(KmpDimTy, "dims");
6538*67e74705SXin Li CGF.EmitNullInitialization(DimsAddr, KmpDimTy);
6539*67e74705SXin Li enum { LowerFD = 0, UpperFD, StrideFD };
6540*67e74705SXin Li // Fill dims with data.
6541*67e74705SXin Li LValue DimsLVal = CGF.MakeAddrLValue(DimsAddr, KmpDimTy);
6542*67e74705SXin Li // dims.upper = num_iterations;
6543*67e74705SXin Li LValue UpperLVal =
6544*67e74705SXin Li CGF.EmitLValueForField(DimsLVal, *std::next(RD->field_begin(), UpperFD));
6545*67e74705SXin Li llvm::Value *NumIterVal = CGF.EmitScalarConversion(
6546*67e74705SXin Li CGF.EmitScalarExpr(D.getNumIterations()), D.getNumIterations()->getType(),
6547*67e74705SXin Li Int64Ty, D.getNumIterations()->getExprLoc());
6548*67e74705SXin Li CGF.EmitStoreOfScalar(NumIterVal, UpperLVal);
6549*67e74705SXin Li // dims.stride = 1;
6550*67e74705SXin Li LValue StrideLVal =
6551*67e74705SXin Li CGF.EmitLValueForField(DimsLVal, *std::next(RD->field_begin(), StrideFD));
6552*67e74705SXin Li CGF.EmitStoreOfScalar(llvm::ConstantInt::getSigned(CGM.Int64Ty, /*V=*/1),
6553*67e74705SXin Li StrideLVal);
6554*67e74705SXin Li
6555*67e74705SXin Li // Build call void __kmpc_doacross_init(ident_t *loc, kmp_int32 gtid,
6556*67e74705SXin Li // kmp_int32 num_dims, struct kmp_dim * dims);
6557*67e74705SXin Li llvm::Value *Args[] = {emitUpdateLocation(CGF, D.getLocStart()),
6558*67e74705SXin Li getThreadID(CGF, D.getLocStart()),
6559*67e74705SXin Li llvm::ConstantInt::getSigned(CGM.Int32Ty, 1),
6560*67e74705SXin Li CGF.Builder.CreatePointerBitCastOrAddrSpaceCast(
6561*67e74705SXin Li DimsAddr.getPointer(), CGM.VoidPtrTy)};
6562*67e74705SXin Li
6563*67e74705SXin Li llvm::Value *RTLFn = createRuntimeFunction(OMPRTL__kmpc_doacross_init);
6564*67e74705SXin Li CGF.EmitRuntimeCall(RTLFn, Args);
6565*67e74705SXin Li llvm::Value *FiniArgs[DoacrossCleanupTy::DoacrossFinArgs] = {
6566*67e74705SXin Li emitUpdateLocation(CGF, D.getLocEnd()), getThreadID(CGF, D.getLocEnd())};
6567*67e74705SXin Li llvm::Value *FiniRTLFn = createRuntimeFunction(OMPRTL__kmpc_doacross_fini);
6568*67e74705SXin Li CGF.EHStack.pushCleanup<DoacrossCleanupTy>(NormalAndEHCleanup, FiniRTLFn,
6569*67e74705SXin Li llvm::makeArrayRef(FiniArgs));
6570*67e74705SXin Li }
6571*67e74705SXin Li
emitDoacrossOrdered(CodeGenFunction & CGF,const OMPDependClause * C)6572*67e74705SXin Li void CGOpenMPRuntime::emitDoacrossOrdered(CodeGenFunction &CGF,
6573*67e74705SXin Li const OMPDependClause *C) {
6574*67e74705SXin Li QualType Int64Ty =
6575*67e74705SXin Li CGM.getContext().getIntTypeForBitwidth(/*DestWidth=*/64, /*Signed=*/1);
6576*67e74705SXin Li const Expr *CounterVal = C->getCounterValue();
6577*67e74705SXin Li assert(CounterVal);
6578*67e74705SXin Li llvm::Value *CntVal = CGF.EmitScalarConversion(CGF.EmitScalarExpr(CounterVal),
6579*67e74705SXin Li CounterVal->getType(), Int64Ty,
6580*67e74705SXin Li CounterVal->getExprLoc());
6581*67e74705SXin Li Address CntAddr = CGF.CreateMemTemp(Int64Ty, ".cnt.addr");
6582*67e74705SXin Li CGF.EmitStoreOfScalar(CntVal, CntAddr, /*Volatile=*/false, Int64Ty);
6583*67e74705SXin Li llvm::Value *Args[] = {emitUpdateLocation(CGF, C->getLocStart()),
6584*67e74705SXin Li getThreadID(CGF, C->getLocStart()),
6585*67e74705SXin Li CntAddr.getPointer()};
6586*67e74705SXin Li llvm::Value *RTLFn;
6587*67e74705SXin Li if (C->getDependencyKind() == OMPC_DEPEND_source)
6588*67e74705SXin Li RTLFn = createRuntimeFunction(OMPRTL__kmpc_doacross_post);
6589*67e74705SXin Li else {
6590*67e74705SXin Li assert(C->getDependencyKind() == OMPC_DEPEND_sink);
6591*67e74705SXin Li RTLFn = createRuntimeFunction(OMPRTL__kmpc_doacross_wait);
6592*67e74705SXin Li }
6593*67e74705SXin Li CGF.EmitRuntimeCall(RTLFn, Args);
6594*67e74705SXin Li }
6595*67e74705SXin Li
6596