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llvm / llvm-project / 5f2e8f579697492fab572796f99bc713f349e6fe / . / clang / lib / AST / OpenMPClause.cpp
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//===- OpenMPClause.cpp - Classes for OpenMP clauses ----------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This file implements the subclesses of Stmt class declared in OpenMPClause.h
//
//===----------------------------------------------------------------------===//
#include "clang/AST/OpenMPClause.h"
#include "clang/AST/ASTContext.h"
#include "clang/AST/Attr.h"
#include "clang/AST/Decl.h"
#include "clang/AST/DeclOpenMP.h"
#include "clang/Basic/LLVM.h"
#include "clang/Basic/OpenMPKinds.h"
#include "clang/Basic/TargetInfo.h"
#include "llvm/ADT/SmallPtrSet.h"
#include "llvm/Support/Casting.h"
#include "llvm/Support/ErrorHandling.h"
#include <algorithm>
#include <cassert>
using namespace clang;
using namespace llvm;
using namespace omp;
OMPClause::child_range OMPClause::children() {
switch (getClauseKind()) {
default:
break;
#define GEN_CLANG_CLAUSE_CLASS
#define CLAUSE_CLASS(Enum, Str, Class) \
case Enum: \
return static_cast<Class *>(this)->children();
#include "llvm/Frontend/OpenMP/OMP.inc"
}
llvm_unreachable("unknown OMPClause");
}
OMPClause::child_range OMPClause::used_children() {
switch (getClauseKind()) {
#define GEN_CLANG_CLAUSE_CLASS
#define CLAUSE_CLASS(Enum, Str, Class) \
case Enum: \
return static_cast<Class *>(this)->used_children();
#define CLAUSE_NO_CLASS(Enum, Str) \
case Enum: \
break;
#include "llvm/Frontend/OpenMP/OMP.inc"
}
llvm_unreachable("unknown OMPClause");
}
OMPClauseWithPreInit *OMPClauseWithPreInit::get(OMPClause *C) {
auto *Res = OMPClauseWithPreInit::get(const_cast<const OMPClause *>(C));
return Res ? const_cast<OMPClauseWithPreInit *>(Res) : nullptr;
}
const OMPClauseWithPreInit *OMPClauseWithPreInit::get(const OMPClause *C) {
switch (C->getClauseKind()) {
case OMPC_schedule:
return static_cast<const OMPScheduleClause *>(C);
case OMPC_dist_schedule:
return static_cast<const OMPDistScheduleClause *>(C);
case OMPC_firstprivate:
return static_cast<const OMPFirstprivateClause *>(C);
case OMPC_lastprivate:
return static_cast<const OMPLastprivateClause *>(C);
case OMPC_reduction:
return static_cast<const OMPReductionClause *>(C);
case OMPC_task_reduction:
return static_cast<const OMPTaskReductionClause *>(C);
case OMPC_in_reduction:
return static_cast<const OMPInReductionClause *>(C);
case OMPC_linear:
return static_cast<const OMPLinearClause *>(C);
case OMPC_if:
return static_cast<const OMPIfClause *>(C);
case OMPC_num_threads:
return static_cast<const OMPNumThreadsClause *>(C);
case OMPC_num_teams:
return static_cast<const OMPNumTeamsClause *>(C);
case OMPC_thread_limit:
return static_cast<const OMPThreadLimitClause *>(C);
case OMPC_device:
return static_cast<const OMPDeviceClause *>(C);
case OMPC_grainsize:
return static_cast<const OMPGrainsizeClause *>(C);
case OMPC_num_tasks:
return static_cast<const OMPNumTasksClause *>(C);
case OMPC_final:
return static_cast<const OMPFinalClause *>(C);
case OMPC_priority:
return static_cast<const OMPPriorityClause *>(C);
case OMPC_novariants:
return static_cast<const OMPNovariantsClause *>(C);
case OMPC_nocontext:
return static_cast<const OMPNocontextClause *>(C);
case OMPC_filter:
return static_cast<const OMPFilterClause *>(C);
case OMPC_default:
case OMPC_proc_bind:
case OMPC_safelen:
case OMPC_simdlen:
case OMPC_sizes:
case OMPC_allocator:
case OMPC_allocate:
case OMPC_collapse:
case OMPC_private:
case OMPC_shared:
case OMPC_aligned:
case OMPC_copyin:
case OMPC_copyprivate:
case OMPC_ordered:
case OMPC_nowait:
case OMPC_untied:
case OMPC_mergeable:
case OMPC_threadprivate:
case OMPC_flush:
case OMPC_depobj:
case OMPC_read:
case OMPC_write:
case OMPC_update:
case OMPC_capture:
case OMPC_seq_cst:
case OMPC_acq_rel:
case OMPC_acquire:
case OMPC_release:
case OMPC_relaxed:
case OMPC_depend:
case OMPC_threads:
case OMPC_simd:
case OMPC_map:
case OMPC_nogroup:
case OMPC_hint:
case OMPC_defaultmap:
case OMPC_unknown:
case OMPC_uniform:
case OMPC_to:
case OMPC_from:
case OMPC_use_device_ptr:
case OMPC_use_device_addr:
case OMPC_is_device_ptr:
case OMPC_unified_address:
case OMPC_unified_shared_memory:
case OMPC_reverse_offload:
case OMPC_dynamic_allocators:
case OMPC_atomic_default_mem_order:
case OMPC_device_type:
case OMPC_match:
case OMPC_nontemporal:
case OMPC_order:
case OMPC_destroy:
case OMPC_detach:
case OMPC_inclusive:
case OMPC_exclusive:
case OMPC_uses_allocators:
case OMPC_affinity:
case OMPC_when:
case OMPC_bind:
break;
default:
break;
}
return nullptr;
}
OMPClauseWithPostUpdate *OMPClauseWithPostUpdate::get(OMPClause *C) {
auto *Res = OMPClauseWithPostUpdate::get(const_cast<const OMPClause *>(C));
return Res ? const_cast<OMPClauseWithPostUpdate *>(Res) : nullptr;
}
const OMPClauseWithPostUpdate *OMPClauseWithPostUpdate::get(const OMPClause *C) {
switch (C->getClauseKind()) {
case OMPC_lastprivate:
return static_cast<const OMPLastprivateClause *>(C);
case OMPC_reduction:
return static_cast<const OMPReductionClause *>(C);
case OMPC_task_reduction:
return static_cast<const OMPTaskReductionClause *>(C);
case OMPC_in_reduction:
return static_cast<const OMPInReductionClause *>(C);
case OMPC_linear:
return static_cast<const OMPLinearClause *>(C);
case OMPC_schedule:
case OMPC_dist_schedule:
case OMPC_firstprivate:
case OMPC_default:
case OMPC_proc_bind:
case OMPC_if:
case OMPC_final:
case OMPC_num_threads:
case OMPC_safelen:
case OMPC_simdlen:
case OMPC_sizes:
case OMPC_allocator:
case OMPC_allocate:
case OMPC_collapse:
case OMPC_private:
case OMPC_shared:
case OMPC_aligned:
case OMPC_copyin:
case OMPC_copyprivate:
case OMPC_ordered:
case OMPC_nowait:
case OMPC_untied:
case OMPC_mergeable:
case OMPC_threadprivate:
case OMPC_flush:
case OMPC_depobj:
case OMPC_read:
case OMPC_write:
case OMPC_update:
case OMPC_capture:
case OMPC_seq_cst:
case OMPC_acq_rel:
case OMPC_acquire:
case OMPC_release:
case OMPC_relaxed:
case OMPC_depend:
case OMPC_device:
case OMPC_threads:
case OMPC_simd:
case OMPC_map:
case OMPC_num_teams:
case OMPC_thread_limit:
case OMPC_priority:
case OMPC_grainsize:
case OMPC_nogroup:
case OMPC_num_tasks:
case OMPC_hint:
case OMPC_defaultmap:
case OMPC_unknown:
case OMPC_uniform:
case OMPC_to:
case OMPC_from:
case OMPC_use_device_ptr:
case OMPC_use_device_addr:
case OMPC_is_device_ptr:
case OMPC_unified_address:
case OMPC_unified_shared_memory:
case OMPC_reverse_offload:
case OMPC_dynamic_allocators:
case OMPC_atomic_default_mem_order:
case OMPC_device_type:
case OMPC_match:
case OMPC_nontemporal:
case OMPC_order:
case OMPC_destroy:
case OMPC_novariants:
case OMPC_nocontext:
case OMPC_detach:
case OMPC_inclusive:
case OMPC_exclusive:
case OMPC_uses_allocators:
case OMPC_affinity:
case OMPC_when:
case OMPC_bind:
break;
default:
break;
}
return nullptr;
}
/// Gets the address of the original, non-captured, expression used in the
/// clause as the preinitializer.
static Stmt **getAddrOfExprAsWritten(Stmt *S) {
if (!S)
return nullptr;
if (auto *DS = dyn_cast<DeclStmt>(S)) {
assert(DS->isSingleDecl() && "Only single expression must be captured.");
if (auto *OED = dyn_cast<OMPCapturedExprDecl>(DS->getSingleDecl()))
return OED->getInitAddress();
}
return nullptr;
}
OMPClause::child_range OMPIfClause::used_children() {
if (Stmt **C = getAddrOfExprAsWritten(getPreInitStmt()))
return child_range(C, C + 1);
return child_range(&Condition, &Condition + 1);
}
OMPClause::child_range OMPGrainsizeClause::used_children() {
if (Stmt **C = getAddrOfExprAsWritten(getPreInitStmt()))
return child_range(C, C + 1);
return child_range(&Grainsize, &Grainsize + 1);
}
OMPClause::child_range OMPNumTasksClause::used_children() {
if (Stmt **C = getAddrOfExprAsWritten(getPreInitStmt()))
return child_range(C, C + 1);
return child_range(&NumTasks, &NumTasks + 1);
}
OMPClause::child_range OMPFinalClause::used_children() {
if (Stmt **C = getAddrOfExprAsWritten(getPreInitStmt()))
return child_range(C, C + 1);
return child_range(&Condition, &Condition + 1);
}
OMPClause::child_range OMPPriorityClause::used_children() {
if (Stmt **C = getAddrOfExprAsWritten(getPreInitStmt()))
return child_range(C, C + 1);
return child_range(&Priority, &Priority + 1);
}
OMPClause::child_range OMPNovariantsClause::used_children() {
if (Stmt **C = getAddrOfExprAsWritten(getPreInitStmt()))
return child_range(C, C + 1);
return child_range(&Condition, &Condition + 1);
}
OMPClause::child_range OMPNocontextClause::used_children() {
if (Stmt **C = getAddrOfExprAsWritten(getPreInitStmt()))
return child_range(C, C + 1);
return child_range(&Condition, &Condition + 1);
}
OMPOrderedClause *OMPOrderedClause::Create(const ASTContext &C, Expr *Num,
unsigned NumLoops,
SourceLocation StartLoc,
SourceLocation LParenLoc,
SourceLocation EndLoc) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(2 * NumLoops));
auto *Clause =
new (Mem) OMPOrderedClause(Num, NumLoops, StartLoc, LParenLoc, EndLoc);
for (unsigned I = 0; I < NumLoops; ++I) {
Clause->setLoopNumIterations(I, nullptr);
Clause->setLoopCounter(I, nullptr);
}
return Clause;
}
OMPOrderedClause *OMPOrderedClause::CreateEmpty(const ASTContext &C,
unsigned NumLoops) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(2 * NumLoops));
auto *Clause = new (Mem) OMPOrderedClause(NumLoops);
for (unsigned I = 0; I < NumLoops; ++I) {
Clause->setLoopNumIterations(I, nullptr);
Clause->setLoopCounter(I, nullptr);
}
return Clause;
}
void OMPOrderedClause::setLoopNumIterations(unsigned NumLoop,
Expr *NumIterations) {
assert(NumLoop < NumberOfLoops && "out of loops number.");
getTrailingObjects<Expr *>()[NumLoop] = NumIterations;
}
ArrayRef<Expr *> OMPOrderedClause::getLoopNumIterations() const {
return llvm::makeArrayRef(getTrailingObjects<Expr *>(), NumberOfLoops);
}
void OMPOrderedClause::setLoopCounter(unsigned NumLoop, Expr *Counter) {
assert(NumLoop < NumberOfLoops && "out of loops number.");
getTrailingObjects<Expr *>()[NumberOfLoops + NumLoop] = Counter;
}
Expr *OMPOrderedClause::getLoopCounter(unsigned NumLoop) {
assert(NumLoop < NumberOfLoops && "out of loops number.");
return getTrailingObjects<Expr *>()[NumberOfLoops + NumLoop];
}
const Expr *OMPOrderedClause::getLoopCounter(unsigned NumLoop) const {
assert(NumLoop < NumberOfLoops && "out of loops number.");
return getTrailingObjects<Expr *>()[NumberOfLoops + NumLoop];
}
OMPUpdateClause *OMPUpdateClause::Create(const ASTContext &C,
SourceLocation StartLoc,
SourceLocation EndLoc) {
return new (C) OMPUpdateClause(StartLoc, EndLoc, /*IsExtended=*/false);
}
OMPUpdateClause *
OMPUpdateClause::Create(const ASTContext &C, SourceLocation StartLoc,
SourceLocation LParenLoc, SourceLocation ArgumentLoc,
OpenMPDependClauseKind DK, SourceLocation EndLoc) {
void *Mem =
C.Allocate(totalSizeToAlloc<SourceLocation, OpenMPDependClauseKind>(2, 1),
alignof(OMPUpdateClause));
auto *Clause =
new (Mem) OMPUpdateClause(StartLoc, EndLoc, /*IsExtended=*/true);
Clause->setLParenLoc(LParenLoc);
Clause->setArgumentLoc(ArgumentLoc);
Clause->setDependencyKind(DK);
return Clause;
}
OMPUpdateClause *OMPUpdateClause::CreateEmpty(const ASTContext &C,
bool IsExtended) {
if (!IsExtended)
return new (C) OMPUpdateClause(/*IsExtended=*/false);
void *Mem =
C.Allocate(totalSizeToAlloc<SourceLocation, OpenMPDependClauseKind>(2, 1),
alignof(OMPUpdateClause));
auto *Clause = new (Mem) OMPUpdateClause(/*IsExtended=*/true);
Clause->IsExtended = true;
return Clause;
}
void OMPPrivateClause::setPrivateCopies(ArrayRef<Expr *> VL) {
assert(VL.size() == varlist_size() &&
"Number of private copies is not the same as the preallocated buffer");
std::copy(VL.begin(), VL.end(), varlist_end());
}
OMPPrivateClause *
OMPPrivateClause::Create(const ASTContext &C, SourceLocation StartLoc,
SourceLocation LParenLoc, SourceLocation EndLoc,
ArrayRef<Expr *> VL, ArrayRef<Expr *> PrivateVL) {
// Allocate space for private variables and initializer expressions.
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(2 * VL.size()));
OMPPrivateClause *Clause =
new (Mem) OMPPrivateClause(StartLoc, LParenLoc, EndLoc, VL.size());
Clause->setVarRefs(VL);
Clause->setPrivateCopies(PrivateVL);
return Clause;
}
OMPPrivateClause *OMPPrivateClause::CreateEmpty(const ASTContext &C,
unsigned N) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(2 * N));
return new (Mem) OMPPrivateClause(N);
}
void OMPFirstprivateClause::setPrivateCopies(ArrayRef<Expr *> VL) {
assert(VL.size() == varlist_size() &&
"Number of private copies is not the same as the preallocated buffer");
std::copy(VL.begin(), VL.end(), varlist_end());
}
void OMPFirstprivateClause::setInits(ArrayRef<Expr *> VL) {
assert(VL.size() == varlist_size() &&
"Number of inits is not the same as the preallocated buffer");
std::copy(VL.begin(), VL.end(), getPrivateCopies().end());
}
OMPFirstprivateClause *
OMPFirstprivateClause::Create(const ASTContext &C, SourceLocation StartLoc,
SourceLocation LParenLoc, SourceLocation EndLoc,
ArrayRef<Expr *> VL, ArrayRef<Expr *> PrivateVL,
ArrayRef<Expr *> InitVL, Stmt *PreInit) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(3 * VL.size()));
OMPFirstprivateClause *Clause =
new (Mem) OMPFirstprivateClause(StartLoc, LParenLoc, EndLoc, VL.size());
Clause->setVarRefs(VL);
Clause->setPrivateCopies(PrivateVL);
Clause->setInits(InitVL);
Clause->setPreInitStmt(PreInit);
return Clause;
}
OMPFirstprivateClause *OMPFirstprivateClause::CreateEmpty(const ASTContext &C,
unsigned N) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(3 * N));
return new (Mem) OMPFirstprivateClause(N);
}
void OMPLastprivateClause::setPrivateCopies(ArrayRef<Expr *> PrivateCopies) {
assert(PrivateCopies.size() == varlist_size() &&
"Number of private copies is not the same as the preallocated buffer");
std::copy(PrivateCopies.begin(), PrivateCopies.end(), varlist_end());
}
void OMPLastprivateClause::setSourceExprs(ArrayRef<Expr *> SrcExprs) {
assert(SrcExprs.size() == varlist_size() && "Number of source expressions is "
"not the same as the "
"preallocated buffer");
std::copy(SrcExprs.begin(), SrcExprs.end(), getPrivateCopies().end());
}
void OMPLastprivateClause::setDestinationExprs(ArrayRef<Expr *> DstExprs) {
assert(DstExprs.size() == varlist_size() && "Number of destination "
"expressions is not the same as "
"the preallocated buffer");
std::copy(DstExprs.begin(), DstExprs.end(), getSourceExprs().end());
}
void OMPLastprivateClause::setAssignmentOps(ArrayRef<Expr *> AssignmentOps) {
assert(AssignmentOps.size() == varlist_size() &&
"Number of assignment expressions is not the same as the preallocated "
"buffer");
std::copy(AssignmentOps.begin(), AssignmentOps.end(),
getDestinationExprs().end());
}
OMPLastprivateClause *OMPLastprivateClause::Create(
const ASTContext &C, SourceLocation StartLoc, SourceLocation LParenLoc,
SourceLocation EndLoc, ArrayRef<Expr *> VL, ArrayRef<Expr *> SrcExprs,
ArrayRef<Expr *> DstExprs, ArrayRef<Expr *> AssignmentOps,
OpenMPLastprivateModifier LPKind, SourceLocation LPKindLoc,
SourceLocation ColonLoc, Stmt *PreInit, Expr *PostUpdate) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(5 * VL.size()));
OMPLastprivateClause *Clause = new (Mem) OMPLastprivateClause(
StartLoc, LParenLoc, EndLoc, LPKind, LPKindLoc, ColonLoc, VL.size());
Clause->setVarRefs(VL);
Clause->setSourceExprs(SrcExprs);
Clause->setDestinationExprs(DstExprs);
Clause->setAssignmentOps(AssignmentOps);
Clause->setPreInitStmt(PreInit);
Clause->setPostUpdateExpr(PostUpdate);
return Clause;
}
OMPLastprivateClause *OMPLastprivateClause::CreateEmpty(const ASTContext &C,
unsigned N) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(5 * N));
return new (Mem) OMPLastprivateClause(N);
}
OMPSharedClause *OMPSharedClause::Create(const ASTContext &C,
SourceLocation StartLoc,
SourceLocation LParenLoc,
SourceLocation EndLoc,
ArrayRef<Expr *> VL) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(VL.size()));
OMPSharedClause *Clause =
new (Mem) OMPSharedClause(StartLoc, LParenLoc, EndLoc, VL.size());
Clause->setVarRefs(VL);
return Clause;
}
OMPSharedClause *OMPSharedClause::CreateEmpty(const ASTContext &C, unsigned N) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(N));
return new (Mem) OMPSharedClause(N);
}
void OMPLinearClause::setPrivates(ArrayRef<Expr *> PL) {
assert(PL.size() == varlist_size() &&
"Number of privates is not the same as the preallocated buffer");
std::copy(PL.begin(), PL.end(), varlist_end());
}
void OMPLinearClause::setInits(ArrayRef<Expr *> IL) {
assert(IL.size() == varlist_size() &&
"Number of inits is not the same as the preallocated buffer");
std::copy(IL.begin(), IL.end(), getPrivates().end());
}
void OMPLinearClause::setUpdates(ArrayRef<Expr *> UL) {
assert(UL.size() == varlist_size() &&
"Number of updates is not the same as the preallocated buffer");
std::copy(UL.begin(), UL.end(), getInits().end());
}
void OMPLinearClause::setFinals(ArrayRef<Expr *> FL) {
assert(FL.size() == varlist_size() &&
"Number of final updates is not the same as the preallocated buffer");
std::copy(FL.begin(), FL.end(), getUpdates().end());
}
void OMPLinearClause::setUsedExprs(ArrayRef<Expr *> UE) {
assert(
UE.size() == varlist_size() + 1 &&
"Number of used expressions is not the same as the preallocated buffer");
std::copy(UE.begin(), UE.end(), getFinals().end() + 2);
}
OMPLinearClause *OMPLinearClause::Create(
const ASTContext &C, SourceLocation StartLoc, SourceLocation LParenLoc,
OpenMPLinearClauseKind Modifier, SourceLocation ModifierLoc,
SourceLocation ColonLoc, SourceLocation EndLoc, ArrayRef<Expr *> VL,
ArrayRef<Expr *> PL, ArrayRef<Expr *> IL, Expr *Step, Expr *CalcStep,
Stmt *PreInit, Expr *PostUpdate) {
// Allocate space for 5 lists (Vars, Inits, Updates, Finals), 2 expressions
// (Step and CalcStep), list of used expression + step.
void *Mem =
C.Allocate(totalSizeToAlloc<Expr *>(5 * VL.size() + 2 + VL.size() + 1));
OMPLinearClause *Clause = new (Mem) OMPLinearClause(
StartLoc, LParenLoc, Modifier, ModifierLoc, ColonLoc, EndLoc, VL.size());
Clause->setVarRefs(VL);
Clause->setPrivates(PL);
Clause->setInits(IL);
// Fill update and final expressions with zeroes, they are provided later,
// after the directive construction.
std::fill(Clause->getInits().end(), Clause->getInits().end() + VL.size(),
nullptr);
std::fill(Clause->getUpdates().end(), Clause->getUpdates().end() + VL.size(),
nullptr);
std::fill(Clause->getUsedExprs().begin(), Clause->getUsedExprs().end(),
nullptr);
Clause->setStep(Step);
Clause->setCalcStep(CalcStep);
Clause->setPreInitStmt(PreInit);
Clause->setPostUpdateExpr(PostUpdate);
return Clause;
}
OMPLinearClause *OMPLinearClause::CreateEmpty(const ASTContext &C,
unsigned NumVars) {
// Allocate space for 5 lists (Vars, Inits, Updates, Finals), 2 expressions
// (Step and CalcStep), list of used expression + step.
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(5 * NumVars + 2 + NumVars +1));
return new (Mem) OMPLinearClause(NumVars);
}
OMPClause::child_range OMPLinearClause::used_children() {
// Range includes only non-nullptr elements.
return child_range(
reinterpret_cast<Stmt **>(getUsedExprs().begin()),
reinterpret_cast<Stmt **>(llvm::find(getUsedExprs(), nullptr)));
}
OMPAlignedClause *
OMPAlignedClause::Create(const ASTContext &C, SourceLocation StartLoc,
SourceLocation LParenLoc, SourceLocation ColonLoc,
SourceLocation EndLoc, ArrayRef<Expr *> VL, Expr *A) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(VL.size() + 1));
OMPAlignedClause *Clause = new (Mem)
OMPAlignedClause(StartLoc, LParenLoc, ColonLoc, EndLoc, VL.size());
Clause->setVarRefs(VL);
Clause->setAlignment(A);
return Clause;
}
OMPAlignedClause *OMPAlignedClause::CreateEmpty(const ASTContext &C,
unsigned NumVars) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(NumVars + 1));
return new (Mem) OMPAlignedClause(NumVars);
}
OMPAlignClause *OMPAlignClause::Create(const ASTContext &C, Expr *A,
SourceLocation StartLoc,
SourceLocation LParenLoc,
SourceLocation EndLoc) {
return new (C) OMPAlignClause(A, StartLoc, LParenLoc, EndLoc);
}
void OMPCopyinClause::setSourceExprs(ArrayRef<Expr *> SrcExprs) {
assert(SrcExprs.size() == varlist_size() && "Number of source expressions is "
"not the same as the "
"preallocated buffer");
std::copy(SrcExprs.begin(), SrcExprs.end(), varlist_end());
}
void OMPCopyinClause::setDestinationExprs(ArrayRef<Expr *> DstExprs) {
assert(DstExprs.size() == varlist_size() && "Number of destination "
"expressions is not the same as "
"the preallocated buffer");
std::copy(DstExprs.begin(), DstExprs.end(), getSourceExprs().end());
}
void OMPCopyinClause::setAssignmentOps(ArrayRef<Expr *> AssignmentOps) {
assert(AssignmentOps.size() == varlist_size() &&
"Number of assignment expressions is not the same as the preallocated "
"buffer");
std::copy(AssignmentOps.begin(), AssignmentOps.end(),
getDestinationExprs().end());
}
OMPCopyinClause *OMPCopyinClause::Create(
const ASTContext &C, SourceLocation StartLoc, SourceLocation LParenLoc,
SourceLocation EndLoc, ArrayRef<Expr *> VL, ArrayRef<Expr *> SrcExprs,
ArrayRef<Expr *> DstExprs, ArrayRef<Expr *> AssignmentOps) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(4 * VL.size()));
OMPCopyinClause *Clause =
new (Mem) OMPCopyinClause(StartLoc, LParenLoc, EndLoc, VL.size());
Clause->setVarRefs(VL);
Clause->setSourceExprs(SrcExprs);
Clause->setDestinationExprs(DstExprs);
Clause->setAssignmentOps(AssignmentOps);
return Clause;
}
OMPCopyinClause *OMPCopyinClause::CreateEmpty(const ASTContext &C, unsigned N) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(4 * N));
return new (Mem) OMPCopyinClause(N);
}
void OMPCopyprivateClause::setSourceExprs(ArrayRef<Expr *> SrcExprs) {
assert(SrcExprs.size() == varlist_size() && "Number of source expressions is "
"not the same as the "
"preallocated buffer");
std::copy(SrcExprs.begin(), SrcExprs.end(), varlist_end());
}
void OMPCopyprivateClause::setDestinationExprs(ArrayRef<Expr *> DstExprs) {
assert(DstExprs.size() == varlist_size() && "Number of destination "
"expressions is not the same as "
"the preallocated buffer");
std::copy(DstExprs.begin(), DstExprs.end(), getSourceExprs().end());
}
void OMPCopyprivateClause::setAssignmentOps(ArrayRef<Expr *> AssignmentOps) {
assert(AssignmentOps.size() == varlist_size() &&
"Number of assignment expressions is not the same as the preallocated "
"buffer");
std::copy(AssignmentOps.begin(), AssignmentOps.end(),
getDestinationExprs().end());
}
OMPCopyprivateClause *OMPCopyprivateClause::Create(
const ASTContext &C, SourceLocation StartLoc, SourceLocation LParenLoc,
SourceLocation EndLoc, ArrayRef<Expr *> VL, ArrayRef<Expr *> SrcExprs,
ArrayRef<Expr *> DstExprs, ArrayRef<Expr *> AssignmentOps) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(4 * VL.size()));
OMPCopyprivateClause *Clause =
new (Mem) OMPCopyprivateClause(StartLoc, LParenLoc, EndLoc, VL.size());
Clause->setVarRefs(VL);
Clause->setSourceExprs(SrcExprs);
Clause->setDestinationExprs(DstExprs);
Clause->setAssignmentOps(AssignmentOps);
return Clause;
}
OMPCopyprivateClause *OMPCopyprivateClause::CreateEmpty(const ASTContext &C,
unsigned N) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(4 * N));
return new (Mem) OMPCopyprivateClause(N);
}
void OMPReductionClause::setPrivates(ArrayRef<Expr *> Privates) {
assert(Privates.size() == varlist_size() &&
"Number of private copies is not the same as the preallocated buffer");
std::copy(Privates.begin(), Privates.end(), varlist_end());
}
void OMPReductionClause::setLHSExprs(ArrayRef<Expr *> LHSExprs) {
assert(
LHSExprs.size() == varlist_size() &&
"Number of LHS expressions is not the same as the preallocated buffer");
std::copy(LHSExprs.begin(), LHSExprs.end(), getPrivates().end());
}
void OMPReductionClause::setRHSExprs(ArrayRef<Expr *> RHSExprs) {
assert(
RHSExprs.size() == varlist_size() &&
"Number of RHS expressions is not the same as the preallocated buffer");
std::copy(RHSExprs.begin(), RHSExprs.end(), getLHSExprs().end());
}
void OMPReductionClause::setReductionOps(ArrayRef<Expr *> ReductionOps) {
assert(ReductionOps.size() == varlist_size() && "Number of reduction "
"expressions is not the same "
"as the preallocated buffer");
std::copy(ReductionOps.begin(), ReductionOps.end(), getRHSExprs().end());
}
void OMPReductionClause::setInscanCopyOps(ArrayRef<Expr *> Ops) {
assert(Modifier == OMPC_REDUCTION_inscan && "Expected inscan reduction.");
assert(Ops.size() == varlist_size() && "Number of copy "
"expressions is not the same "
"as the preallocated buffer");
llvm::copy(Ops, getReductionOps().end());
}
void OMPReductionClause::setInscanCopyArrayTemps(
ArrayRef<Expr *> CopyArrayTemps) {
assert(Modifier == OMPC_REDUCTION_inscan && "Expected inscan reduction.");
assert(CopyArrayTemps.size() == varlist_size() &&
"Number of copy temp expressions is not the same as the preallocated "
"buffer");
llvm::copy(CopyArrayTemps, getInscanCopyOps().end());
}
void OMPReductionClause::setInscanCopyArrayElems(
ArrayRef<Expr *> CopyArrayElems) {
assert(Modifier == OMPC_REDUCTION_inscan && "Expected inscan reduction.");
assert(CopyArrayElems.size() == varlist_size() &&
"Number of copy temp expressions is not the same as the preallocated "
"buffer");
llvm::copy(CopyArrayElems, getInscanCopyArrayTemps().end());
}
OMPReductionClause *OMPReductionClause::Create(
const ASTContext &C, SourceLocation StartLoc, SourceLocation LParenLoc,
SourceLocation ModifierLoc, SourceLocation EndLoc, SourceLocation ColonLoc,
OpenMPReductionClauseModifier Modifier, ArrayRef<Expr *> VL,
NestedNameSpecifierLoc QualifierLoc, const DeclarationNameInfo &NameInfo,
ArrayRef<Expr *> Privates, ArrayRef<Expr *> LHSExprs,
ArrayRef<Expr *> RHSExprs, ArrayRef<Expr *> ReductionOps,
ArrayRef<Expr *> CopyOps, ArrayRef<Expr *> CopyArrayTemps,
ArrayRef<Expr *> CopyArrayElems, Stmt *PreInit, Expr *PostUpdate) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(
(Modifier == OMPC_REDUCTION_inscan ? 8 : 5) * VL.size()));
auto *Clause = new (Mem)
OMPReductionClause(StartLoc, LParenLoc, ModifierLoc, EndLoc, ColonLoc,
Modifier, VL.size(), QualifierLoc, NameInfo);
Clause->setVarRefs(VL);
Clause->setPrivates(Privates);
Clause->setLHSExprs(LHSExprs);
Clause->setRHSExprs(RHSExprs);
Clause->setReductionOps(ReductionOps);
Clause->setPreInitStmt(PreInit);
Clause->setPostUpdateExpr(PostUpdate);
if (Modifier == OMPC_REDUCTION_inscan) {
Clause->setInscanCopyOps(CopyOps);
Clause->setInscanCopyArrayTemps(CopyArrayTemps);
Clause->setInscanCopyArrayElems(CopyArrayElems);
} else {
assert(CopyOps.empty() &&
"copy operations are expected in inscan reductions only.");
assert(CopyArrayTemps.empty() &&
"copy array temps are expected in inscan reductions only.");
assert(CopyArrayElems.empty() &&
"copy array temps are expected in inscan reductions only.");
}
return Clause;
}
OMPReductionClause *
OMPReductionClause::CreateEmpty(const ASTContext &C, unsigned N,
OpenMPReductionClauseModifier Modifier) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(
(Modifier == OMPC_REDUCTION_inscan ? 8 : 5) * N));
auto *Clause = new (Mem) OMPReductionClause(N);
Clause->setModifier(Modifier);
return Clause;
}
void OMPTaskReductionClause::setPrivates(ArrayRef<Expr *> Privates) {
assert(Privates.size() == varlist_size() &&
"Number of private copies is not the same as the preallocated buffer");
std::copy(Privates.begin(), Privates.end(), varlist_end());
}
void OMPTaskReductionClause::setLHSExprs(ArrayRef<Expr *> LHSExprs) {
assert(
LHSExprs.size() == varlist_size() &&
"Number of LHS expressions is not the same as the preallocated buffer");
std::copy(LHSExprs.begin(), LHSExprs.end(), getPrivates().end());
}
void OMPTaskReductionClause::setRHSExprs(ArrayRef<Expr *> RHSExprs) {
assert(
RHSExprs.size() == varlist_size() &&
"Number of RHS expressions is not the same as the preallocated buffer");
std::copy(RHSExprs.begin(), RHSExprs.end(), getLHSExprs().end());
}
void OMPTaskReductionClause::setReductionOps(ArrayRef<Expr *> ReductionOps) {
assert(ReductionOps.size() == varlist_size() && "Number of task reduction "
"expressions is not the same "
"as the preallocated buffer");
std::copy(ReductionOps.begin(), ReductionOps.end(), getRHSExprs().end());
}
OMPTaskReductionClause *OMPTaskReductionClause::Create(
const ASTContext &C, SourceLocation StartLoc, SourceLocation LParenLoc,
SourceLocation EndLoc, SourceLocation ColonLoc, ArrayRef<Expr *> VL,
NestedNameSpecifierLoc QualifierLoc, const DeclarationNameInfo &NameInfo,
ArrayRef<Expr *> Privates, ArrayRef<Expr *> LHSExprs,
ArrayRef<Expr *> RHSExprs, ArrayRef<Expr *> ReductionOps, Stmt *PreInit,
Expr *PostUpdate) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(5 * VL.size()));
OMPTaskReductionClause *Clause = new (Mem) OMPTaskReductionClause(
StartLoc, LParenLoc, EndLoc, ColonLoc, VL.size(), QualifierLoc, NameInfo);
Clause->setVarRefs(VL);
Clause->setPrivates(Privates);
Clause->setLHSExprs(LHSExprs);
Clause->setRHSExprs(RHSExprs);
Clause->setReductionOps(ReductionOps);
Clause->setPreInitStmt(PreInit);
Clause->setPostUpdateExpr(PostUpdate);
return Clause;
}
OMPTaskReductionClause *OMPTaskReductionClause::CreateEmpty(const ASTContext &C,
unsigned N) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(5 * N));
return new (Mem) OMPTaskReductionClause(N);
}
void OMPInReductionClause::setPrivates(ArrayRef<Expr *> Privates) {
assert(Privates.size() == varlist_size() &&
"Number of private copies is not the same as the preallocated buffer");
std::copy(Privates.begin(), Privates.end(), varlist_end());
}
void OMPInReductionClause::setLHSExprs(ArrayRef<Expr *> LHSExprs) {
assert(
LHSExprs.size() == varlist_size() &&
"Number of LHS expressions is not the same as the preallocated buffer");
std::copy(LHSExprs.begin(), LHSExprs.end(), getPrivates().end());
}
void OMPInReductionClause::setRHSExprs(ArrayRef<Expr *> RHSExprs) {
assert(
RHSExprs.size() == varlist_size() &&
"Number of RHS expressions is not the same as the preallocated buffer");
std::copy(RHSExprs.begin(), RHSExprs.end(), getLHSExprs().end());
}
void OMPInReductionClause::setReductionOps(ArrayRef<Expr *> ReductionOps) {
assert(ReductionOps.size() == varlist_size() && "Number of in reduction "
"expressions is not the same "
"as the preallocated buffer");
std::copy(ReductionOps.begin(), ReductionOps.end(), getRHSExprs().end());
}
void OMPInReductionClause::setTaskgroupDescriptors(
ArrayRef<Expr *> TaskgroupDescriptors) {
assert(TaskgroupDescriptors.size() == varlist_size() &&
"Number of in reduction descriptors is not the same as the "
"preallocated buffer");
std::copy(TaskgroupDescriptors.begin(), TaskgroupDescriptors.end(),
getReductionOps().end());
}
OMPInReductionClause *OMPInReductionClause::Create(
const ASTContext &C, SourceLocation StartLoc, SourceLocation LParenLoc,
SourceLocation EndLoc, SourceLocation ColonLoc, ArrayRef<Expr *> VL,
NestedNameSpecifierLoc QualifierLoc, const DeclarationNameInfo &NameInfo,
ArrayRef<Expr *> Privates, ArrayRef<Expr *> LHSExprs,
ArrayRef<Expr *> RHSExprs, ArrayRef<Expr *> ReductionOps,
ArrayRef<Expr *> TaskgroupDescriptors, Stmt *PreInit, Expr *PostUpdate) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(6 * VL.size()));
OMPInReductionClause *Clause = new (Mem) OMPInReductionClause(
StartLoc, LParenLoc, EndLoc, ColonLoc, VL.size(), QualifierLoc, NameInfo);
Clause->setVarRefs(VL);
Clause->setPrivates(Privates);
Clause->setLHSExprs(LHSExprs);
Clause->setRHSExprs(RHSExprs);
Clause->setReductionOps(ReductionOps);
Clause->setTaskgroupDescriptors(TaskgroupDescriptors);
Clause->setPreInitStmt(PreInit);
Clause->setPostUpdateExpr(PostUpdate);
return Clause;
}
OMPInReductionClause *OMPInReductionClause::CreateEmpty(const ASTContext &C,
unsigned N) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(6 * N));
return new (Mem) OMPInReductionClause(N);
}
OMPSizesClause *OMPSizesClause::Create(const ASTContext &C,
SourceLocation StartLoc,
SourceLocation LParenLoc,
SourceLocation EndLoc,
ArrayRef<Expr *> Sizes) {
OMPSizesClause *Clause = CreateEmpty(C, Sizes.size());
Clause->setLocStart(StartLoc);
Clause->setLParenLoc(LParenLoc);
Clause->setLocEnd(EndLoc);
Clause->setSizesRefs(Sizes);
return Clause;
}
OMPSizesClause *OMPSizesClause::CreateEmpty(const ASTContext &C,
unsigned NumSizes) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(NumSizes));
return new (Mem) OMPSizesClause(NumSizes);
}
OMPFullClause *OMPFullClause::Create(const ASTContext &C,
SourceLocation StartLoc,
SourceLocation EndLoc) {
OMPFullClause *Clause = CreateEmpty(C);
Clause->setLocStart(StartLoc);
Clause->setLocEnd(EndLoc);
return Clause;
}
OMPFullClause *OMPFullClause::CreateEmpty(const ASTContext &C) {
return new (C) OMPFullClause();
}
OMPPartialClause *OMPPartialClause::Create(const ASTContext &C,
SourceLocation StartLoc,
SourceLocation LParenLoc,
SourceLocation EndLoc,
Expr *Factor) {
OMPPartialClause *Clause = CreateEmpty(C);
Clause->setLocStart(StartLoc);
Clause->setLParenLoc(LParenLoc);
Clause->setLocEnd(EndLoc);
Clause->setFactor(Factor);
return Clause;
}
OMPPartialClause *OMPPartialClause::CreateEmpty(const ASTContext &C) {
return new (C) OMPPartialClause();
}
OMPAllocateClause *
OMPAllocateClause::Create(const ASTContext &C, SourceLocation StartLoc,
SourceLocation LParenLoc, Expr *Allocator,
SourceLocation ColonLoc, SourceLocation EndLoc,
ArrayRef<Expr *> VL) {
// Allocate space for private variables and initializer expressions.
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(VL.size()));
auto *Clause = new (Mem) OMPAllocateClause(StartLoc, LParenLoc, Allocator,
ColonLoc, EndLoc, VL.size());
Clause->setVarRefs(VL);
return Clause;
}
OMPAllocateClause *OMPAllocateClause::CreateEmpty(const ASTContext &C,
unsigned N) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(N));
return new (Mem) OMPAllocateClause(N);
}
OMPFlushClause *OMPFlushClause::Create(const ASTContext &C,
SourceLocation StartLoc,
SourceLocation LParenLoc,
SourceLocation EndLoc,
ArrayRef<Expr *> VL) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(VL.size() + 1));
OMPFlushClause *Clause =
new (Mem) OMPFlushClause(StartLoc, LParenLoc, EndLoc, VL.size());
Clause->setVarRefs(VL);
return Clause;
}
OMPFlushClause *OMPFlushClause::CreateEmpty(const ASTContext &C, unsigned N) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(N));
return new (Mem) OMPFlushClause(N);
}
OMPDepobjClause *OMPDepobjClause::Create(const ASTContext &C,
SourceLocation StartLoc,
SourceLocation LParenLoc,
SourceLocation RParenLoc,
Expr *Depobj) {
auto *Clause = new (C) OMPDepobjClause(StartLoc, LParenLoc, RParenLoc);
Clause->setDepobj(Depobj);
return Clause;
}
OMPDepobjClause *OMPDepobjClause::CreateEmpty(const ASTContext &C) {
return new (C) OMPDepobjClause();
}
OMPDependClause *
OMPDependClause::Create(const ASTContext &C, SourceLocation StartLoc,
SourceLocation LParenLoc, SourceLocation EndLoc,
Expr *DepModifier, OpenMPDependClauseKind DepKind,
SourceLocation DepLoc, SourceLocation ColonLoc,
ArrayRef<Expr *> VL, unsigned NumLoops) {
void *Mem = C.Allocate(
totalSizeToAlloc<Expr *>(VL.size() + /*depend-modifier*/ 1 + NumLoops),
alignof(OMPDependClause));
OMPDependClause *Clause = new (Mem)
OMPDependClause(StartLoc, LParenLoc, EndLoc, VL.size(), NumLoops);
Clause->setVarRefs(VL);
Clause->setDependencyKind(DepKind);
Clause->setDependencyLoc(DepLoc);
Clause->setColonLoc(ColonLoc);
Clause->setModifier(DepModifier);
for (unsigned I = 0 ; I < NumLoops; ++I)
Clause->setLoopData(I, nullptr);
return Clause;
}
OMPDependClause *OMPDependClause::CreateEmpty(const ASTContext &C, unsigned N,
unsigned NumLoops) {
void *Mem =
C.Allocate(totalSizeToAlloc<Expr *>(N + /*depend-modifier*/ 1 + NumLoops),
alignof(OMPDependClause));
return new (Mem) OMPDependClause(N, NumLoops);
}
void OMPDependClause::setLoopData(unsigned NumLoop, Expr *Cnt) {
assert((getDependencyKind() == OMPC_DEPEND_sink ||
getDependencyKind() == OMPC_DEPEND_source) &&
NumLoop < NumLoops &&
"Expected sink or source depend + loop index must be less number of "
"loops.");
auto *It = std::next(getVarRefs().end(), NumLoop + 1);
*It = Cnt;
}
Expr *OMPDependClause::getLoopData(unsigned NumLoop) {
assert((getDependencyKind() == OMPC_DEPEND_sink ||
getDependencyKind() == OMPC_DEPEND_source) &&
NumLoop < NumLoops &&
"Expected sink or source depend + loop index must be less number of "
"loops.");
auto *It = std::next(getVarRefs().end(), NumLoop + 1);
return *It;
}
const Expr *OMPDependClause::getLoopData(unsigned NumLoop) const {
assert((getDependencyKind() == OMPC_DEPEND_sink ||
getDependencyKind() == OMPC_DEPEND_source) &&
NumLoop < NumLoops &&
"Expected sink or source depend + loop index must be less number of "
"loops.");
const auto *It = std::next(getVarRefs().end(), NumLoop + 1);
return *It;
}
void OMPDependClause::setModifier(Expr *DepModifier) {
*getVarRefs().end() = DepModifier;
}
Expr *OMPDependClause::getModifier() { return *getVarRefs().end(); }
unsigned OMPClauseMappableExprCommon::getComponentsTotalNumber(
MappableExprComponentListsRef ComponentLists) {
unsigned TotalNum = 0u;
for (auto &C : ComponentLists)
TotalNum += C.size();
return TotalNum;
}
unsigned OMPClauseMappableExprCommon::getUniqueDeclarationsTotalNumber(
ArrayRef<const ValueDecl *> Declarations) {
unsigned TotalNum = 0u;
llvm::SmallPtrSet<const ValueDecl *, 8> Cache;
for (const ValueDecl *D : Declarations) {
const ValueDecl *VD = D ? cast<ValueDecl>(D->getCanonicalDecl()) : nullptr;
if (Cache.count(VD))
continue;
++TotalNum;
Cache.insert(VD);
}
return TotalNum;
}
OMPMapClause *OMPMapClause::Create(
const ASTContext &C, const OMPVarListLocTy &Locs, ArrayRef<Expr *> Vars,
ArrayRef<ValueDecl *> Declarations,
MappableExprComponentListsRef ComponentLists, ArrayRef<Expr *> UDMapperRefs,
ArrayRef<OpenMPMapModifierKind> MapModifiers,
ArrayRef<SourceLocation> MapModifiersLoc,
NestedNameSpecifierLoc UDMQualifierLoc, DeclarationNameInfo MapperId,
OpenMPMapClauseKind Type, bool TypeIsImplicit, SourceLocation TypeLoc) {
OMPMappableExprListSizeTy Sizes;
Sizes.NumVars = Vars.size();
Sizes.NumUniqueDeclarations = getUniqueDeclarationsTotalNumber(Declarations);
Sizes.NumComponentLists = ComponentLists.size();
Sizes.NumComponents = getComponentsTotalNumber(ComponentLists);
// We need to allocate:
// 2 x NumVars x Expr* - we have an original list expression and an associated
// user-defined mapper for each clause list entry.
// NumUniqueDeclarations x ValueDecl* - unique base declarations associated
// with each component list.
// (NumUniqueDeclarations + NumComponentLists) x unsigned - we specify the
// number of lists for each unique declaration and the size of each component
// list.
// NumComponents x MappableComponent - the total of all the components in all
// the lists.
void *Mem = C.Allocate(
totalSizeToAlloc<Expr *, ValueDecl *, unsigned,
OMPClauseMappableExprCommon::MappableComponent>(
2 * Sizes.NumVars, Sizes.NumUniqueDeclarations,
Sizes.NumUniqueDeclarations + Sizes.NumComponentLists,
Sizes.NumComponents));
OMPMapClause *Clause = new (Mem)
OMPMapClause(MapModifiers, MapModifiersLoc, UDMQualifierLoc, MapperId,
Type, TypeIsImplicit, TypeLoc, Locs, Sizes);
Clause->setVarRefs(Vars);
Clause->setUDMapperRefs(UDMapperRefs);
Clause->setClauseInfo(Declarations, ComponentLists);
Clause->setMapType(Type);
Clause->setMapLoc(TypeLoc);
return Clause;
}
OMPMapClause *
OMPMapClause::CreateEmpty(const ASTContext &C,
const OMPMappableExprListSizeTy &Sizes) {
void *Mem = C.Allocate(
totalSizeToAlloc<Expr *, ValueDecl *, unsigned,
OMPClauseMappableExprCommon::MappableComponent>(
2 * Sizes.NumVars, Sizes.NumUniqueDeclarations,
Sizes.NumUniqueDeclarations + Sizes.NumComponentLists,
Sizes.NumComponents));
return new (Mem) OMPMapClause(Sizes);
}
OMPToClause *OMPToClause::Create(
const ASTContext &C, const OMPVarListLocTy &Locs, ArrayRef<Expr *> Vars,
ArrayRef<ValueDecl *> Declarations,
MappableExprComponentListsRef ComponentLists, ArrayRef<Expr *> UDMapperRefs,
ArrayRef<OpenMPMotionModifierKind> MotionModifiers,
ArrayRef<SourceLocation> MotionModifiersLoc,
NestedNameSpecifierLoc UDMQualifierLoc, DeclarationNameInfo MapperId) {
OMPMappableExprListSizeTy Sizes;
Sizes.NumVars = Vars.size();
Sizes.NumUniqueDeclarations = getUniqueDeclarationsTotalNumber(Declarations);
Sizes.NumComponentLists = ComponentLists.size();
Sizes.NumComponents = getComponentsTotalNumber(ComponentLists);
// We need to allocate:
// 2 x NumVars x Expr* - we have an original list expression and an associated
// user-defined mapper for each clause list entry.
// NumUniqueDeclarations x ValueDecl* - unique base declarations associated
// with each component list.
// (NumUniqueDeclarations + NumComponentLists) x unsigned - we specify the
// number of lists for each unique declaration and the size of each component
// list.
// NumComponents x MappableComponent - the total of all the components in all
// the lists.
void *Mem = C.Allocate(
totalSizeToAlloc<Expr *, ValueDecl *, unsigned,
OMPClauseMappableExprCommon::MappableComponent>(
2 * Sizes.NumVars, Sizes.NumUniqueDeclarations,
Sizes.NumUniqueDeclarations + Sizes.NumComponentLists,
Sizes.NumComponents));
auto *Clause = new (Mem) OMPToClause(MotionModifiers, MotionModifiersLoc,
UDMQualifierLoc, MapperId, Locs, Sizes);
Clause->setVarRefs(Vars);
Clause->setUDMapperRefs(UDMapperRefs);
Clause->setClauseInfo(Declarations, ComponentLists);
return Clause;
}
OMPToClause *OMPToClause::CreateEmpty(const ASTContext &C,
const OMPMappableExprListSizeTy &Sizes) {
void *Mem = C.Allocate(
totalSizeToAlloc<Expr *, ValueDecl *, unsigned,
OMPClauseMappableExprCommon::MappableComponent>(
2 * Sizes.NumVars, Sizes.NumUniqueDeclarations,
Sizes.NumUniqueDeclarations + Sizes.NumComponentLists,
Sizes.NumComponents));
return new (Mem) OMPToClause(Sizes);
}
OMPFromClause *OMPFromClause::Create(
const ASTContext &C, const OMPVarListLocTy &Locs, ArrayRef<Expr *> Vars,
ArrayRef<ValueDecl *> Declarations,
MappableExprComponentListsRef ComponentLists, ArrayRef<Expr *> UDMapperRefs,
ArrayRef<OpenMPMotionModifierKind> MotionModifiers,
ArrayRef<SourceLocation> MotionModifiersLoc,
NestedNameSpecifierLoc UDMQualifierLoc, DeclarationNameInfo MapperId) {
OMPMappableExprListSizeTy Sizes;
Sizes.NumVars = Vars.size();
Sizes.NumUniqueDeclarations = getUniqueDeclarationsTotalNumber(Declarations);
Sizes.NumComponentLists = ComponentLists.size();
Sizes.NumComponents = getComponentsTotalNumber(ComponentLists);
// We need to allocate:
// 2 x NumVars x Expr* - we have an original list expression and an associated
// user-defined mapper for each clause list entry.
// NumUniqueDeclarations x ValueDecl* - unique base declarations associated
// with each component list.
// (NumUniqueDeclarations + NumComponentLists) x unsigned - we specify the
// number of lists for each unique declaration and the size of each component
// list.
// NumComponents x MappableComponent - the total of all the components in all
// the lists.
void *Mem = C.Allocate(
totalSizeToAlloc<Expr *, ValueDecl *, unsigned,
OMPClauseMappableExprCommon::MappableComponent>(
2 * Sizes.NumVars, Sizes.NumUniqueDeclarations,
Sizes.NumUniqueDeclarations + Sizes.NumComponentLists,
Sizes.NumComponents));
auto *Clause =
new (Mem) OMPFromClause(MotionModifiers, MotionModifiersLoc,
UDMQualifierLoc, MapperId, Locs, Sizes);
Clause->setVarRefs(Vars);
Clause->setUDMapperRefs(UDMapperRefs);
Clause->setClauseInfo(Declarations, ComponentLists);
return Clause;
}
OMPFromClause *
OMPFromClause::CreateEmpty(const ASTContext &C,
const OMPMappableExprListSizeTy &Sizes) {
void *Mem = C.Allocate(
totalSizeToAlloc<Expr *, ValueDecl *, unsigned,
OMPClauseMappableExprCommon::MappableComponent>(
2 * Sizes.NumVars, Sizes.NumUniqueDeclarations,
Sizes.NumUniqueDeclarations + Sizes.NumComponentLists,
Sizes.NumComponents));
return new (Mem) OMPFromClause(Sizes);
}
void OMPUseDevicePtrClause::setPrivateCopies(ArrayRef<Expr *> VL) {
assert(VL.size() == varlist_size() &&
"Number of private copies is not the same as the preallocated buffer");
std::copy(VL.begin(), VL.end(), varlist_end());
}
void OMPUseDevicePtrClause::setInits(ArrayRef<Expr *> VL) {
assert(VL.size() == varlist_size() &&
"Number of inits is not the same as the preallocated buffer");
std::copy(VL.begin(), VL.end(), getPrivateCopies().end());
}
OMPUseDevicePtrClause *OMPUseDevicePtrClause::Create(
const ASTContext &C, const OMPVarListLocTy &Locs, ArrayRef<Expr *> Vars,
ArrayRef<Expr *> PrivateVars, ArrayRef<Expr *> Inits,
ArrayRef<ValueDecl *> Declarations,
MappableExprComponentListsRef ComponentLists) {
OMPMappableExprListSizeTy Sizes;
Sizes.NumVars = Vars.size();
Sizes.NumUniqueDeclarations = getUniqueDeclarationsTotalNumber(Declarations);
Sizes.NumComponentLists = ComponentLists.size();
Sizes.NumComponents = getComponentsTotalNumber(ComponentLists);
// We need to allocate:
// NumVars x Expr* - we have an original list expression for each clause
// list entry.
// NumUniqueDeclarations x ValueDecl* - unique base declarations associated
// with each component list.
// (NumUniqueDeclarations + NumComponentLists) x unsigned - we specify the
// number of lists for each unique declaration and the size of each component
// list.
// NumComponents x MappableComponent - the total of all the components in all
// the lists.
void *Mem = C.Allocate(
totalSizeToAlloc<Expr *, ValueDecl *, unsigned,
OMPClauseMappableExprCommon::MappableComponent>(
3 * Sizes.NumVars, Sizes.NumUniqueDeclarations,
Sizes.NumUniqueDeclarations + Sizes.NumComponentLists,
Sizes.NumComponents));
OMPUseDevicePtrClause *Clause = new (Mem) OMPUseDevicePtrClause(Locs, Sizes);
Clause->setVarRefs(Vars);
Clause->setPrivateCopies(PrivateVars);
Clause->setInits(Inits);
Clause->setClauseInfo(Declarations, ComponentLists);
return Clause;
}
OMPUseDevicePtrClause *
OMPUseDevicePtrClause::CreateEmpty(const ASTContext &C,
const OMPMappableExprListSizeTy &Sizes) {
void *Mem = C.Allocate(
totalSizeToAlloc<Expr *, ValueDecl *, unsigned,
OMPClauseMappableExprCommon::MappableComponent>(
3 * Sizes.NumVars, Sizes.NumUniqueDeclarations,
Sizes.NumUniqueDeclarations + Sizes.NumComponentLists,
Sizes.NumComponents));
return new (Mem) OMPUseDevicePtrClause(Sizes);
}
OMPUseDeviceAddrClause *
OMPUseDeviceAddrClause::Create(const ASTContext &C, const OMPVarListLocTy &Locs,
ArrayRef<Expr *> Vars,
ArrayRef<ValueDecl *> Declarations,
MappableExprComponentListsRef ComponentLists) {
OMPMappableExprListSizeTy Sizes;
Sizes.NumVars = Vars.size();
Sizes.NumUniqueDeclarations = getUniqueDeclarationsTotalNumber(Declarations);
Sizes.NumComponentLists = ComponentLists.size();
Sizes.NumComponents = getComponentsTotalNumber(ComponentLists);
// We need to allocate:
// 3 x NumVars x Expr* - we have an original list expression for each clause
// list entry and an equal number of private copies and inits.
// NumUniqueDeclarations x ValueDecl* - unique base declarations associated
// with each component list.
// (NumUniqueDeclarations + NumComponentLists) x unsigned - we specify the
// number of lists for each unique declaration and the size of each component
// list.
// NumComponents x MappableComponent - the total of all the components in all
// the lists.
void *Mem = C.Allocate(
totalSizeToAlloc<Expr *, ValueDecl *, unsigned,
OMPClauseMappableExprCommon::MappableComponent>(
Sizes.NumVars, Sizes.NumUniqueDeclarations,
Sizes.NumUniqueDeclarations + Sizes.NumComponentLists,
Sizes.NumComponents));
auto *Clause = new (Mem) OMPUseDeviceAddrClause(Locs, Sizes);
Clause->setVarRefs(Vars);
Clause->setClauseInfo(Declarations, ComponentLists);
return Clause;
}
OMPUseDeviceAddrClause *
OMPUseDeviceAddrClause::CreateEmpty(const ASTContext &C,
const OMPMappableExprListSizeTy &Sizes) {
void *Mem = C.Allocate(
totalSizeToAlloc<Expr *, ValueDecl *, unsigned,
OMPClauseMappableExprCommon::MappableComponent>(
Sizes.NumVars, Sizes.NumUniqueDeclarations,
Sizes.NumUniqueDeclarations + Sizes.NumComponentLists,
Sizes.NumComponents));
return new (Mem) OMPUseDeviceAddrClause(Sizes);
}
OMPIsDevicePtrClause *
OMPIsDevicePtrClause::Create(const ASTContext &C, const OMPVarListLocTy &Locs,
ArrayRef<Expr *> Vars,
ArrayRef<ValueDecl *> Declarations,
MappableExprComponentListsRef ComponentLists) {
OMPMappableExprListSizeTy Sizes;
Sizes.NumVars = Vars.size();
Sizes.NumUniqueDeclarations = getUniqueDeclarationsTotalNumber(Declarations);
Sizes.NumComponentLists = ComponentLists.size();
Sizes.NumComponents = getComponentsTotalNumber(ComponentLists);
// We need to allocate:
// NumVars x Expr* - we have an original list expression for each clause list
// entry.
// NumUniqueDeclarations x ValueDecl* - unique base declarations associated
// with each component list.
// (NumUniqueDeclarations + NumComponentLists) x unsigned - we specify the
// number of lists for each unique declaration and the size of each component
// list.
// NumComponents x MappableComponent - the total of all the components in all
// the lists.
void *Mem = C.Allocate(
totalSizeToAlloc<Expr *, ValueDecl *, unsigned,
OMPClauseMappableExprCommon::MappableComponent>(
Sizes.NumVars, Sizes.NumUniqueDeclarations,
Sizes.NumUniqueDeclarations + Sizes.NumComponentLists,
Sizes.NumComponents));
OMPIsDevicePtrClause *Clause = new (Mem) OMPIsDevicePtrClause(Locs, Sizes);
Clause->setVarRefs(Vars);
Clause->setClauseInfo(Declarations, ComponentLists);
return Clause;
}
OMPIsDevicePtrClause *
OMPIsDevicePtrClause::CreateEmpty(const ASTContext &C,
const OMPMappableExprListSizeTy &Sizes) {
void *Mem = C.Allocate(
totalSizeToAlloc<Expr *, ValueDecl *, unsigned,
OMPClauseMappableExprCommon::MappableComponent>(
Sizes.NumVars, Sizes.NumUniqueDeclarations,
Sizes.NumUniqueDeclarations + Sizes.NumComponentLists,
Sizes.NumComponents));
return new (Mem) OMPIsDevicePtrClause(Sizes);
}
OMPNontemporalClause *OMPNontemporalClause::Create(const ASTContext &C,
SourceLocation StartLoc,
SourceLocation LParenLoc,
SourceLocation EndLoc,
ArrayRef<Expr *> VL) {
// Allocate space for nontemporal variables + private references.
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(2 * VL.size()));
auto *Clause =
new (Mem) OMPNontemporalClause(StartLoc, LParenLoc, EndLoc, VL.size());
Clause->setVarRefs(VL);
return Clause;
}
OMPNontemporalClause *OMPNontemporalClause::CreateEmpty(const ASTContext &C,
unsigned N) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(2 * N));
return new (Mem) OMPNontemporalClause(N);
}
void OMPNontemporalClause::setPrivateRefs(ArrayRef<Expr *> VL) {
assert(VL.size() == varlist_size() && "Number of private references is not "
"the same as the preallocated buffer");
std::copy(VL.begin(), VL.end(), varlist_end());
}
OMPInclusiveClause *OMPInclusiveClause::Create(const ASTContext &C,
SourceLocation StartLoc,
SourceLocation LParenLoc,
SourceLocation EndLoc,
ArrayRef<Expr *> VL) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(VL.size()));
auto *Clause =
new (Mem) OMPInclusiveClause(StartLoc, LParenLoc, EndLoc, VL.size());
Clause->setVarRefs(VL);
return Clause;
}
OMPInclusiveClause *OMPInclusiveClause::CreateEmpty(const ASTContext &C,
unsigned N) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(N));
return new (Mem) OMPInclusiveClause(N);
}
OMPExclusiveClause *OMPExclusiveClause::Create(const ASTContext &C,
SourceLocation StartLoc,
SourceLocation LParenLoc,
SourceLocation EndLoc,
ArrayRef<Expr *> VL) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(VL.size()));
auto *Clause =
new (Mem) OMPExclusiveClause(StartLoc, LParenLoc, EndLoc, VL.size());
Clause->setVarRefs(VL);
return Clause;
}
OMPExclusiveClause *OMPExclusiveClause::CreateEmpty(const ASTContext &C,
unsigned N) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(N));
return new (Mem) OMPExclusiveClause(N);
}
void OMPUsesAllocatorsClause::setAllocatorsData(
ArrayRef<OMPUsesAllocatorsClause::Data> Data) {
assert(Data.size() == NumOfAllocators &&
"Size of allocators data is not the same as the preallocated buffer.");
for (unsigned I = 0, E = Data.size(); I < E; ++I) {
const OMPUsesAllocatorsClause::Data &D = Data[I];
getTrailingObjects<Expr *>()[I * static_cast<int>(ExprOffsets::Total) +
static_cast<int>(ExprOffsets::Allocator)] =
D.Allocator;
getTrailingObjects<Expr *>()[I * static_cast<int>(ExprOffsets::Total) +
static_cast<int>(
ExprOffsets::AllocatorTraits)] =
D.AllocatorTraits;
getTrailingObjects<
SourceLocation>()[I * static_cast<int>(ParenLocsOffsets::Total) +
static_cast<int>(ParenLocsOffsets::LParen)] =
D.LParenLoc;
getTrailingObjects<
SourceLocation>()[I * static_cast<int>(ParenLocsOffsets::Total) +
static_cast<int>(ParenLocsOffsets::RParen)] =
D.RParenLoc;
}
}
OMPUsesAllocatorsClause::Data
OMPUsesAllocatorsClause::getAllocatorData(unsigned I) const {
OMPUsesAllocatorsClause::Data Data;
Data.Allocator =
getTrailingObjects<Expr *>()[I * static_cast<int>(ExprOffsets::Total) +
static_cast<int>(ExprOffsets::Allocator)];
Data.AllocatorTraits =
getTrailingObjects<Expr *>()[I * static_cast<int>(ExprOffsets::Total) +
static_cast<int>(
ExprOffsets::AllocatorTraits)];
Data.LParenLoc = getTrailingObjects<
SourceLocation>()[I * static_cast<int>(ParenLocsOffsets::Total) +
static_cast<int>(ParenLocsOffsets::LParen)];
Data.RParenLoc = getTrailingObjects<
SourceLocation>()[I * static_cast<int>(ParenLocsOffsets::Total) +
static_cast<int>(ParenLocsOffsets::RParen)];
return Data;
}
OMPUsesAllocatorsClause *
OMPUsesAllocatorsClause::Create(const ASTContext &C, SourceLocation StartLoc,
SourceLocation LParenLoc, SourceLocation EndLoc,
ArrayRef<OMPUsesAllocatorsClause::Data> Data) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *, SourceLocation>(
static_cast<int>(ExprOffsets::Total) * Data.size(),
static_cast<int>(ParenLocsOffsets::Total) * Data.size()));
auto *Clause = new (Mem)
OMPUsesAllocatorsClause(StartLoc, LParenLoc, EndLoc, Data.size());
Clause->setAllocatorsData(Data);
return Clause;
}
OMPUsesAllocatorsClause *
OMPUsesAllocatorsClause::CreateEmpty(const ASTContext &C, unsigned N) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *, SourceLocation>(
static_cast<int>(ExprOffsets::Total) * N,
static_cast<int>(ParenLocsOffsets::Total) * N));
return new (Mem) OMPUsesAllocatorsClause(N);
}
OMPAffinityClause *
OMPAffinityClause::Create(const ASTContext &C, SourceLocation StartLoc,
SourceLocation LParenLoc, SourceLocation ColonLoc,
SourceLocation EndLoc, Expr *Modifier,
ArrayRef<Expr *> Locators) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(Locators.size() + 1));
auto *Clause = new (Mem)
OMPAffinityClause(StartLoc, LParenLoc, ColonLoc, EndLoc, Locators.size());
Clause->setModifier(Modifier);
Clause->setVarRefs(Locators);
return Clause;
}
OMPAffinityClause *OMPAffinityClause::CreateEmpty(const ASTContext &C,
unsigned N) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(N + 1));
return new (Mem) OMPAffinityClause(N);
}
OMPInitClause *OMPInitClause::Create(const ASTContext &C, Expr *InteropVar,
ArrayRef<Expr *> PrefExprs, bool IsTarget,
bool IsTargetSync, SourceLocation StartLoc,
SourceLocation LParenLoc,
SourceLocation VarLoc,
SourceLocation EndLoc) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(PrefExprs.size() + 1));
auto *Clause =
new (Mem) OMPInitClause(IsTarget, IsTargetSync, StartLoc, LParenLoc,
VarLoc, EndLoc, PrefExprs.size() + 1);
Clause->setInteropVar(InteropVar);
llvm::copy(PrefExprs, Clause->getTrailingObjects<Expr *>() + 1);
return Clause;
}
OMPInitClause *OMPInitClause::CreateEmpty(const ASTContext &C, unsigned N) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(N));
return new (Mem) OMPInitClause(N);
}
OMPBindClause *
OMPBindClause::Create(const ASTContext &C, OpenMPBindClauseKind K,
SourceLocation KLoc, SourceLocation StartLoc,
SourceLocation LParenLoc, SourceLocation EndLoc) {
return new (C) OMPBindClause(K, KLoc, StartLoc, LParenLoc, EndLoc);
}
OMPBindClause *OMPBindClause::CreateEmpty(const ASTContext &C) {
return new (C) OMPBindClause();
}
//===----------------------------------------------------------------------===//
// OpenMP clauses printing methods
//===----------------------------------------------------------------------===//
void OMPClausePrinter::VisitOMPIfClause(OMPIfClause *Node) {
OS << "if(";
if (Node->getNameModifier() != OMPD_unknown)
OS << getOpenMPDirectiveName(Node->getNameModifier()) << ": ";
Node->getCondition()->printPretty(OS, nullptr, Policy, 0);
OS << ")";
}
void OMPClausePrinter::VisitOMPFinalClause(OMPFinalClause *Node) {
OS << "final(";
Node->getCondition()->printPretty(OS, nullptr, Policy, 0);
OS << ")";
}
void OMPClausePrinter::VisitOMPNumThreadsClause(OMPNumThreadsClause *Node) {
OS << "num_threads(";
Node->getNumThreads()->printPretty(OS, nullptr, Policy, 0);
OS << ")";
}
void OMPClausePrinter::VisitOMPAlignClause(OMPAlignClause *Node) {
OS << "align(";
Node->getAlignment()->printPretty(OS, nullptr, Policy, 0);
OS << ")";
}
void OMPClausePrinter::VisitOMPSafelenClause(OMPSafelenClause *Node) {
OS << "safelen(";
Node->getSafelen()->printPretty(OS, nullptr, Policy, 0);
OS << ")";
}
void OMPClausePrinter::VisitOMPSimdlenClause(OMPSimdlenClause *Node) {
OS << "simdlen(";
Node->getSimdlen()->printPretty(OS, nullptr, Policy, 0);
OS << ")";
}
void OMPClausePrinter::VisitOMPSizesClause(OMPSizesClause *Node) {
OS << "sizes(";
bool First = true;
for (auto Size : Node->getSizesRefs()) {
if (!First)
OS << ", ";
Size->printPretty(OS, nullptr, Policy, 0);
First = false;
}
OS << ")";
}
void OMPClausePrinter::VisitOMPFullClause(OMPFullClause *Node) { OS << "full"; }
void OMPClausePrinter::VisitOMPPartialClause(OMPPartialClause *Node) {
OS << "partial";
if (Expr *Factor = Node->getFactor()) {
OS << '(';
Factor->printPretty(OS, nullptr, Policy, 0);
OS << ')';
}
}
void OMPClausePrinter::VisitOMPAllocatorClause(OMPAllocatorClause *Node) {
OS << "allocator(";
Node->getAllocator()->printPretty(OS, nullptr, Policy, 0);
OS << ")";
}
void OMPClausePrinter::VisitOMPCollapseClause(OMPCollapseClause *Node) {
OS << "collapse(";
Node->getNumForLoops()->printPretty(OS, nullptr, Policy, 0);
OS << ")";
}
void OMPClausePrinter::VisitOMPDetachClause(OMPDetachClause *Node) {
OS << "detach(";
Node->getEventHandler()->printPretty(OS, nullptr, Policy, 0);
OS << ")";
}
void OMPClausePrinter::VisitOMPDefaultClause(OMPDefaultClause *Node) {
OS << "default("
<< getOpenMPSimpleClauseTypeName(OMPC_default,
unsigned(Node->getDefaultKind()))
<< ")";
}
void OMPClausePrinter::VisitOMPProcBindClause(OMPProcBindClause *Node) {
OS << "proc_bind("
<< getOpenMPSimpleClauseTypeName(OMPC_proc_bind,
unsigned(Node->getProcBindKind()))
<< ")";
}
void OMPClausePrinter::VisitOMPUnifiedAddressClause(OMPUnifiedAddressClause *) {
OS << "unified_address";
}
void OMPClausePrinter::VisitOMPUnifiedSharedMemoryClause(
OMPUnifiedSharedMemoryClause *) {
OS << "unified_shared_memory";
}
void OMPClausePrinter::VisitOMPReverseOffloadClause(OMPReverseOffloadClause *) {
OS << "reverse_offload";
}
void OMPClausePrinter::VisitOMPDynamicAllocatorsClause(
OMPDynamicAllocatorsClause *) {
OS << "dynamic_allocators";
}
void OMPClausePrinter::VisitOMPAtomicDefaultMemOrderClause(
OMPAtomicDefaultMemOrderClause *Node) {
OS << "atomic_default_mem_order("
<< getOpenMPSimpleClauseTypeName(OMPC_atomic_default_mem_order,
Node->getAtomicDefaultMemOrderKind())
<< ")";
}
void OMPClausePrinter::VisitOMPScheduleClause(OMPScheduleClause *Node) {
OS << "schedule(";
if (Node->getFirstScheduleModifier() != OMPC_SCHEDULE_MODIFIER_unknown) {
OS << getOpenMPSimpleClauseTypeName(OMPC_schedule,
Node->getFirstScheduleModifier());
if (Node->getSecondScheduleModifier() != OMPC_SCHEDULE_MODIFIER_unknown) {
OS << ", ";
OS << getOpenMPSimpleClauseTypeName(OMPC_schedule,
Node->getSecondScheduleModifier());
}
OS << ": ";
}
OS << getOpenMPSimpleClauseTypeName(OMPC_schedule, Node->getScheduleKind());
if (auto *E = Node->getChunkSize()) {
OS << ", ";
E->printPretty(OS, nullptr, Policy);
}
OS << ")";
}
void OMPClausePrinter::VisitOMPOrderedClause(OMPOrderedClause *Node) {
OS << "ordered";
if (auto *Num = Node->getNumForLoops()) {
OS << "(";
Num->printPretty(OS, nullptr, Policy, 0);
OS << ")";
}
}
void OMPClausePrinter::VisitOMPNowaitClause(OMPNowaitClause *) {
OS << "nowait";
}
void OMPClausePrinter::VisitOMPUntiedClause(OMPUntiedClause *) {
OS << "untied";
}
void OMPClausePrinter::VisitOMPNogroupClause(OMPNogroupClause *) {
OS << "nogroup";
}
void OMPClausePrinter::VisitOMPMergeableClause(OMPMergeableClause *) {
OS << "mergeable";
}
void OMPClausePrinter::VisitOMPReadClause(OMPReadClause *) { OS << "read"; }
void OMPClausePrinter::VisitOMPWriteClause(OMPWriteClause *) { OS << "write"; }
void OMPClausePrinter::VisitOMPUpdateClause(OMPUpdateClause *Node) {
OS << "update";
if (Node->isExtended()) {
OS << "(";
OS << getOpenMPSimpleClauseTypeName(Node->getClauseKind(),
Node->getDependencyKind());
OS << ")";
}
}
void OMPClausePrinter::VisitOMPCaptureClause(OMPCaptureClause *) {
OS << "capture";
}
void OMPClausePrinter::VisitOMPSeqCstClause(OMPSeqCstClause *) {
OS << "seq_cst";
}
void OMPClausePrinter::VisitOMPAcqRelClause(OMPAcqRelClause *) {
OS << "acq_rel";
}
void OMPClausePrinter::VisitOMPAcquireClause(OMPAcquireClause *) {
OS << "acquire";
}
void OMPClausePrinter::VisitOMPReleaseClause(OMPReleaseClause *) {
OS << "release";
}
void OMPClausePrinter::VisitOMPRelaxedClause(OMPRelaxedClause *) {
OS << "relaxed";
}
void OMPClausePrinter::VisitOMPThreadsClause(OMPThreadsClause *) {
OS << "threads";
}
void OMPClausePrinter::VisitOMPSIMDClause(OMPSIMDClause *) { OS << "simd"; }
void OMPClausePrinter::VisitOMPDeviceClause(OMPDeviceClause *Node) {
OS << "device(";
OpenMPDeviceClauseModifier Modifier = Node->getModifier();
if (Modifier != OMPC_DEVICE_unknown) {
OS << getOpenMPSimpleClauseTypeName(Node->getClauseKind(), Modifier)
<< ": ";
}
Node->getDevice()->printPretty(OS, nullptr, Policy, 0);
OS << ")";
}
void OMPClausePrinter::VisitOMPNumTeamsClause(OMPNumTeamsClause *Node) {
OS << "num_teams(";
Node->getNumTeams()->printPretty(OS, nullptr, Policy, 0);
OS << ")";
}
void OMPClausePrinter::VisitOMPThreadLimitClause(OMPThreadLimitClause *Node) {
OS << "thread_limit(";
Node->getThreadLimit()->printPretty(OS, nullptr, Policy, 0);
OS << ")";
}
void OMPClausePrinter::VisitOMPPriorityClause(OMPPriorityClause *Node) {
OS << "priority(";
Node->getPriority()->printPretty(OS, nullptr, Policy, 0);
OS << ")";
}
void OMPClausePrinter::VisitOMPGrainsizeClause(OMPGrainsizeClause *Node) {
OS << "grainsize(";
Node->getGrainsize()->printPretty(OS, nullptr, Policy, 0);
OS << ")";
}
void OMPClausePrinter::VisitOMPNumTasksClause(OMPNumTasksClause *Node) {
OS << "num_tasks(";
Node->getNumTasks()->printPretty(OS, nullptr, Policy, 0);
OS << ")";
}
void OMPClausePrinter::VisitOMPHintClause(OMPHintClause *Node) {
OS << "hint(";
Node->getHint()->printPretty(OS, nullptr, Policy, 0);
OS << ")";
}
void OMPClausePrinter::VisitOMPInitClause(OMPInitClause *Node) {
OS << "init(";
bool First = true;
for (const Expr *E : Node->prefs()) {
if (First)
OS << "prefer_type(";
else
OS << ",";
E->printPretty(OS, nullptr, Policy);
First = false;
}
if (!First)
OS << "), ";
if (Node->getIsTarget())
OS << "target";
if (Node->getIsTargetSync()) {
if (Node->getIsTarget())
OS << ", ";
OS << "targetsync";
}
OS << " : ";
Node->getInteropVar()->printPretty(OS, nullptr, Policy);
OS << ")";
}
void OMPClausePrinter::VisitOMPUseClause(OMPUseClause *Node) {
OS << "use(";
Node->getInteropVar()->printPretty(OS, nullptr, Policy);
OS << ")";
}
void OMPClausePrinter::VisitOMPDestroyClause(OMPDestroyClause *Node) {
OS << "destroy";
if (Expr *E = Node->getInteropVar()) {
OS << "(";
E->printPretty(OS, nullptr, Policy);
OS << ")";
}
}
void OMPClausePrinter::VisitOMPNovariantsClause(OMPNovariantsClause *Node) {
OS << "novariants";
if (Expr *E = Node->getCondition()) {
OS << "(";
E->printPretty(OS, nullptr, Policy, 0);
OS << ")";
}
}
void OMPClausePrinter::VisitOMPNocontextClause(OMPNocontextClause *Node) {
OS << "nocontext";
if (Expr *E = Node->getCondition()) {
OS << "(";
E->printPretty(OS, nullptr, Policy, 0);
OS << ")";
}
}
template<typename T>
void OMPClausePrinter::VisitOMPClauseList(T *Node, char StartSym) {
for (typename T::varlist_iterator I = Node->varlist_begin(),
E = Node->varlist_end();
I != E; ++I) {
assert(*I && "Expected non-null Stmt");
OS << (I == Node->varlist_begin() ? StartSym : ',');
if (auto *DRE = dyn_cast<DeclRefExpr>(*I)) {
if (isa<OMPCapturedExprDecl>(DRE->getDecl()))
DRE->printPretty(OS, nullptr, Policy, 0);
else
DRE->getDecl()->printQualifiedName(OS);
} else
(*I)->printPretty(OS, nullptr, Policy, 0);
}
}
void OMPClausePrinter::VisitOMPAllocateClause(OMPAllocateClause *Node) {
if (Node->varlist_empty())
return;
OS << "allocate";
if (Expr *Allocator = Node->getAllocator()) {
OS << "(";
Allocator->printPretty(OS, nullptr, Policy, 0);
OS << ":";
VisitOMPClauseList(Node, ' ');
} else {
VisitOMPClauseList(Node, '(');
}
OS << ")";
}
void OMPClausePrinter::VisitOMPPrivateClause(OMPPrivateClause *Node) {
if (!Node->varlist_empty()) {
OS << "private";
VisitOMPClauseList(Node, '(');
OS << ")";
}
}
void OMPClausePrinter::VisitOMPFirstprivateClause(OMPFirstprivateClause *Node) {
if (!Node->varlist_empty()) {
OS << "firstprivate";
VisitOMPClauseList(Node, '(');
OS << ")";
}
}
void OMPClausePrinter::VisitOMPLastprivateClause(OMPLastprivateClause *Node) {
if (!Node->varlist_empty()) {
OS << "lastprivate";
OpenMPLastprivateModifier LPKind = Node->getKind();
if (LPKind != OMPC_LASTPRIVATE_unknown) {
OS << "("
<< getOpenMPSimpleClauseTypeName(OMPC_lastprivate, Node->getKind())
<< ":";
}
VisitOMPClauseList(Node, LPKind == OMPC_LASTPRIVATE_unknown ? '(' : ' ');
OS << ")";
}
}
void OMPClausePrinter::VisitOMPSharedClause(OMPSharedClause *Node) {
if (!Node->varlist_empty()) {
OS << "shared";
VisitOMPClauseList(Node, '(');
OS << ")";
}
}
void OMPClausePrinter::VisitOMPReductionClause(OMPReductionClause *Node) {
if (!Node->varlist_empty()) {
OS << "reduction(";
if (Node->getModifierLoc().isValid())
OS << getOpenMPSimpleClauseTypeName(OMPC_reduction, Node->getModifier())
<< ", ";
NestedNameSpecifier *QualifierLoc =
Node->getQualifierLoc().getNestedNameSpecifier();
OverloadedOperatorKind OOK =
Node->getNameInfo().getName().getCXXOverloadedOperator();
if (QualifierLoc == nullptr && OOK != OO_None) {
// Print reduction identifier in C format
OS << getOperatorSpelling(OOK);
} else {
// Use C++ format
if (QualifierLoc != nullptr)
QualifierLoc->print(OS, Policy);
OS << Node->getNameInfo();
}
OS << ":";
VisitOMPClauseList(Node, ' ');
OS << ")";
}
}
void OMPClausePrinter::VisitOMPTaskReductionClause(
OMPTaskReductionClause *Node) {
if (!Node->varlist_empty()) {
OS << "task_reduction(";
NestedNameSpecifier *QualifierLoc =
Node->getQualifierLoc().getNestedNameSpecifier();
OverloadedOperatorKind OOK =
Node->getNameInfo().getName().getCXXOverloadedOperator();
if (QualifierLoc == nullptr && OOK != OO_None) {
// Print reduction identifier in C format
OS << getOperatorSpelling(OOK);
} else {
// Use C++ format
if (QualifierLoc != nullptr)
QualifierLoc->print(OS, Policy);
OS << Node->getNameInfo();
}
OS << ":";
VisitOMPClauseList(Node, ' ');
OS << ")";
}
}
void OMPClausePrinter::VisitOMPInReductionClause(OMPInReductionClause *Node) {
if (!Node->varlist_empty()) {
OS << "in_reduction(";
NestedNameSpecifier *QualifierLoc =
Node->getQualifierLoc().getNestedNameSpecifier();
OverloadedOperatorKind OOK =
Node->getNameInfo().getName().getCXXOverloadedOperator();
if (QualifierLoc == nullptr && OOK != OO_None) {
// Print reduction identifier in C format
OS << getOperatorSpelling(OOK);
} else {
// Use C++ format
if (QualifierLoc != nullptr)
QualifierLoc->print(OS, Policy);
OS << Node->getNameInfo();
}
OS << ":";
VisitOMPClauseList(Node, ' ');
OS << ")";
}
}
void OMPClausePrinter::VisitOMPLinearClause(OMPLinearClause *Node) {
if (!Node->varlist_empty()) {
OS << "linear";
if (Node->getModifierLoc().isValid()) {
OS << '('
<< getOpenMPSimpleClauseTypeName(OMPC_linear, Node->getModifier());
}
VisitOMPClauseList(Node, '(');
if (Node->getModifierLoc().isValid())
OS << ')';
if (Node->getStep() != nullptr) {
OS << ": ";
Node->getStep()->printPretty(OS, nullptr, Policy, 0);
}
OS << ")";
}
}
void OMPClausePrinter::VisitOMPAlignedClause(OMPAlignedClause *Node) {
if (!Node->varlist_empty()) {
OS << "aligned";
VisitOMPClauseList(Node, '(');
if (Node->getAlignment() != nullptr) {
OS << ": ";
Node->getAlignment()->printPretty(OS, nullptr, Policy, 0);
}
OS << ")";
}
}
void OMPClausePrinter::VisitOMPCopyinClause(OMPCopyinClause *Node) {
if (!Node->varlist_empty()) {
OS << "copyin";
VisitOMPClauseList(Node, '(');
OS << ")";
}
}
void OMPClausePrinter::VisitOMPCopyprivateClause(OMPCopyprivateClause *Node) {
if (!Node->varlist_empty()) {
OS << "copyprivate";
VisitOMPClauseList(Node, '(');
OS << ")";
}
}
void OMPClausePrinter::VisitOMPFlushClause(OMPFlushClause *Node) {
if (!Node->varlist_empty()) {
VisitOMPClauseList(Node, '(');
OS << ")";
}
}
void OMPClausePrinter::VisitOMPDepobjClause(OMPDepobjClause *Node) {
OS << "(";
Node->getDepobj()->printPretty(OS, nullptr, Policy, 0);
OS << ")";
}
void OMPClausePrinter::VisitOMPDependClause(OMPDependClause *Node) {
OS << "depend(";
if (Expr *DepModifier = Node->getModifier()) {
DepModifier->printPretty(OS, nullptr, Policy);
OS << ", ";
}
OS << getOpenMPSimpleClauseTypeName(Node->getClauseKind(),
Node->getDependencyKind());
if (!Node->varlist_empty()) {
OS << " :";
VisitOMPClauseList(Node, ' ');
}
OS << ")";
}
template <typename T>
static void PrintMapper(raw_ostream &OS, T *Node,
const PrintingPolicy &Policy) {
OS << '(';
NestedNameSpecifier *MapperNNS =
Node->getMapperQualifierLoc().getNestedNameSpecifier();
if (MapperNNS)
MapperNNS->print(OS, Policy);
OS << Node->getMapperIdInfo() << ')';
}
void OMPClausePrinter::VisitOMPMapClause(OMPMapClause *Node) {
if (!Node->varlist_empty()) {
OS << "map(";
if (Node->getMapType() != OMPC_MAP_unknown) {
for (unsigned I = 0; I < NumberOfOMPMapClauseModifiers; ++I) {
if (Node->getMapTypeModifier(I) != OMPC_MAP_MODIFIER_unknown) {
OS << getOpenMPSimpleClauseTypeName(OMPC_map,
Node->getMapTypeModifier(I));
if (Node->getMapTypeModifier(I) == OMPC_MAP_MODIFIER_mapper)
PrintMapper(OS, Node, Policy);
OS << ',';
}
}
OS << getOpenMPSimpleClauseTypeName(OMPC_map, Node->getMapType());
OS << ':';
}
VisitOMPClauseList(Node, ' ');
OS << ")";
}
}
template <typename T> void OMPClausePrinter::VisitOMPMotionClause(T *Node) {
if (Node->varlist_empty())
return;
OS << getOpenMPClauseName(Node->getClauseKind());
unsigned ModifierCount = 0;
for (unsigned I = 0; I < NumberOfOMPMotionModifiers; ++I) {
if (Node->getMotionModifier(I) != OMPC_MOTION_MODIFIER_unknown)
++ModifierCount;
}
if (ModifierCount) {
OS << '(';
for (unsigned I = 0; I < NumberOfOMPMotionModifiers; ++I) {
if (Node->getMotionModifier(I) != OMPC_MOTION_MODIFIER_unknown) {
OS << getOpenMPSimpleClauseTypeName(Node->getClauseKind(),
Node->getMotionModifier(I));
if (Node->getMotionModifier(I) == OMPC_MOTION_MODIFIER_mapper)
PrintMapper(OS, Node, Policy);
if (I < ModifierCount - 1)
OS << ", ";
}
}
OS << ':';
VisitOMPClauseList(Node, ' ');
} else {
VisitOMPClauseList(Node, '(');
}
OS << ")";
}
void OMPClausePrinter::VisitOMPToClause(OMPToClause *Node) {
VisitOMPMotionClause(Node);
}
void OMPClausePrinter::VisitOMPFromClause(OMPFromClause *Node) {
VisitOMPMotionClause(Node);
}
void OMPClausePrinter::VisitOMPDistScheduleClause(OMPDistScheduleClause *Node) {
OS << "dist_schedule(" << getOpenMPSimpleClauseTypeName(
OMPC_dist_schedule, Node->getDistScheduleKind());
if (auto *E = Node->getChunkSize()) {
OS << ", ";
E->printPretty(OS, nullptr, Policy);
}
OS << ")";
}
void OMPClausePrinter::VisitOMPDefaultmapClause(OMPDefaultmapClause *Node) {
OS << "defaultmap(";
OS << getOpenMPSimpleClauseTypeName(OMPC_defaultmap,
Node->getDefaultmapModifier());
if (Node->getDefaultmapKind() != OMPC_DEFAULTMAP_unknown) {
OS << ": ";
OS << getOpenMPSimpleClauseTypeName(OMPC_defaultmap,
Node->getDefaultmapKind());
}
OS << ")";
}
void OMPClausePrinter::VisitOMPUseDevicePtrClause(OMPUseDevicePtrClause *Node) {
if (!Node->varlist_empty()) {
OS << "use_device_ptr";
VisitOMPClauseList(Node, '(');
OS << ")";
}
}
void OMPClausePrinter::VisitOMPUseDeviceAddrClause(
OMPUseDeviceAddrClause *Node) {
if (!Node->varlist_empty()) {
OS << "use_device_addr";
VisitOMPClauseList(Node, '(');
OS << ")";
}
}
void OMPClausePrinter::VisitOMPIsDevicePtrClause(OMPIsDevicePtrClause *Node) {
if (!Node->varlist_empty()) {
OS << "is_device_ptr";
VisitOMPClauseList(Node, '(');
OS << ")";
}
}
void OMPClausePrinter::VisitOMPNontemporalClause(OMPNontemporalClause *Node) {
if (!Node->varlist_empty()) {
OS << "nontemporal";
VisitOMPClauseList(Node, '(');
OS << ")";
}
}
void OMPClausePrinter::VisitOMPOrderClause(OMPOrderClause *Node) {
OS << "order(" << getOpenMPSimpleClauseTypeName(OMPC_order, Node->getKind())
<< ")";
}
void OMPClausePrinter::VisitOMPInclusiveClause(OMPInclusiveClause *Node) {
if (!Node->varlist_empty()) {
OS << "inclusive";
VisitOMPClauseList(Node, '(');
OS << ")";
}
}
void OMPClausePrinter::VisitOMPExclusiveClause(OMPExclusiveClause *Node) {
if (!Node->varlist_empty()) {
OS << "exclusive";
VisitOMPClauseList(Node, '(');
OS << ")";
}
}
void OMPClausePrinter::VisitOMPUsesAllocatorsClause(
OMPUsesAllocatorsClause *Node) {
if (Node->getNumberOfAllocators() == 0)
return;
OS << "uses_allocators(";
for (unsigned I = 0, E = Node->getNumberOfAllocators(); I < E; ++I) {
OMPUsesAllocatorsClause::Data Data = Node->getAllocatorData(I);
Data.Allocator->printPretty(OS, nullptr, Policy);
if (Data.AllocatorTraits) {
OS << "(";
Data.AllocatorTraits->printPretty(OS, nullptr, Policy);
OS << ")";
}
if (I < E - 1)
OS << ",";
}
OS << ")";
}
void OMPClausePrinter::VisitOMPAffinityClause(OMPAffinityClause *Node) {
if (Node->varlist_empty())
return;
OS << "affinity";
char StartSym = '(';
if (Expr *Modifier = Node->getModifier()) {
OS << "(";
Modifier->printPretty(OS, nullptr, Policy);
OS << " :";
StartSym = ' ';
}
VisitOMPClauseList(Node, StartSym);
OS << ")";
}
void OMPClausePrinter::VisitOMPFilterClause(OMPFilterClause *Node) {
OS << "filter(";
Node->getThreadID()->printPretty(OS, nullptr, Policy, 0);
OS << ")";
}
void OMPClausePrinter::VisitOMPBindClause(OMPBindClause *Node) {
OS << "bind("
<< getOpenMPSimpleClauseTypeName(OMPC_bind, unsigned(Node->getBindKind()))
<< ")";
}
void OMPTraitInfo::getAsVariantMatchInfo(ASTContext &ASTCtx,
VariantMatchInfo &VMI) const {
for (const OMPTraitSet &Set : Sets) {
for (const OMPTraitSelector &Selector : Set.Selectors) {
// User conditions are special as we evaluate the condition here.
if (Selector.Kind == TraitSelector::user_condition) {
assert(Selector.ScoreOrCondition &&
"Ill-formed user condition, expected condition expression!");
assert(Selector.Properties.size() == 1 &&
Selector.Properties.front().Kind ==
TraitProperty::user_condition_unknown &&
"Ill-formed user condition, expected unknown trait property!");
if (Optional<APSInt> CondVal =
Selector.ScoreOrCondition->getIntegerConstantExpr(ASTCtx))
VMI.addTrait(CondVal->isZero() ? TraitProperty::user_condition_false
: TraitProperty::user_condition_true,
"<condition>");
else
VMI.addTrait(TraitProperty::user_condition_false, "<condition>");
continue;
}
Optional<llvm::APSInt> Score;
llvm::APInt *ScorePtr = nullptr;
if (Selector.ScoreOrCondition) {
if ((Score = Selector.ScoreOrCondition->getIntegerConstantExpr(ASTCtx)))
ScorePtr = &*Score;
else
VMI.addTrait(TraitProperty::user_condition_false,
"<non-constant-score>");
}
for (const OMPTraitProperty &Property : Selector.Properties)
VMI.addTrait(Set.Kind, Property.Kind, Property.RawString, ScorePtr);
if (Set.Kind != TraitSet::construct)
continue;
// TODO: This might not hold once we implement SIMD properly.
assert(Selector.Properties.size() == 1 &&
Selector.Properties.front().Kind ==
getOpenMPContextTraitPropertyForSelector(
Selector.Kind) &&
"Ill-formed construct selector!");
}
}
}
void OMPTraitInfo::print(llvm::raw_ostream &OS,
const PrintingPolicy &Policy) const {
bool FirstSet = true;
for (const OMPTraitSet &Set : Sets) {
if (!FirstSet)
OS << ", ";
FirstSet = false;
OS << getOpenMPContextTraitSetName(Set.Kind) << "={";
bool FirstSelector = true;
for (const OMPTraitSelector &Selector : Set.Selectors) {
if (!FirstSelector)
OS << ", ";
FirstSelector = false;
OS << getOpenMPContextTraitSelectorName(Selector.Kind);
bool AllowsTraitScore = false;
bool RequiresProperty = false;
isValidTraitSelectorForTraitSet(
Selector.Kind, Set.Kind, AllowsTraitScore, RequiresProperty);
if (!RequiresProperty)
continue;
OS << "(";
if (Selector.Kind == TraitSelector::user_condition) {
if (Selector.ScoreOrCondition)
Selector.ScoreOrCondition->printPretty(OS, nullptr, Policy);
else
OS << "...";
} else {
if (Selector.ScoreOrCondition) {
OS << "score(";
Selector.ScoreOrCondition->printPretty(OS, nullptr, Policy);
OS << "): ";
}
bool FirstProperty = true;
for (const OMPTraitProperty &Property : Selector.Properties) {
if (!FirstProperty)
OS << ", ";
FirstProperty = false;
OS << getOpenMPContextTraitPropertyName(Property.Kind,
Property.RawString);
}
}
OS << ")";
}
OS << "}";
}
}
std::string OMPTraitInfo::getMangledName() const {
std::string MangledName;
llvm::raw_string_ostream OS(MangledName);
for (const OMPTraitSet &Set : Sets) {
OS << '$' << 'S' << unsigned(Set.Kind);
for (const OMPTraitSelector &Selector : Set.Selectors) {
bool AllowsTraitScore = false;
bool RequiresProperty = false;
isValidTraitSelectorForTraitSet(
Selector.Kind, Set.Kind, AllowsTraitScore, RequiresProperty);
OS << '$' << 's' << unsigned(Selector.Kind);
if (!RequiresProperty ||
Selector.Kind == TraitSelector::user_condition)
continue;
for (const OMPTraitProperty &Property : Selector.Properties)
OS << '$' << 'P'
<< getOpenMPContextTraitPropertyName(Property.Kind,
Property.RawString);
}
}
return OS.str();
}
OMPTraitInfo::OMPTraitInfo(StringRef MangledName) {
unsigned long U;
do {
if (!MangledName.consume_front("$S"))
break;
if (MangledName.consumeInteger(10, U))
break;
Sets.push_back(OMPTraitSet());
OMPTraitSet &Set = Sets.back();
Set.Kind = TraitSet(U);
do {
if (!MangledName.consume_front("$s"))
break;
if (MangledName.consumeInteger(10, U))
break;
Set.Selectors.push_back(OMPTraitSelector());
OMPTraitSelector &Selector = Set.Selectors.back();
Selector.Kind = TraitSelector(U);
do {
if (!MangledName.consume_front("$P"))
break;
Selector.Properties.push_back(OMPTraitProperty());
OMPTraitProperty &Property = Selector.Properties.back();
std::pair<StringRef, StringRef> PropRestPair = MangledName.split('$');
Property.RawString = PropRestPair.first;
Property.Kind = getOpenMPContextTraitPropertyKind(
Set.Kind, Selector.Kind, PropRestPair.first);
MangledName = MangledName.drop_front(PropRestPair.first.size());
} while (true);
} while (true);
} while (true);
}
llvm::raw_ostream &clang::operator<<(llvm::raw_ostream &OS,
const OMPTraitInfo &TI) {
LangOptions LO;
PrintingPolicy Policy(LO);
TI.print(OS, Policy);
return OS;
}
llvm::raw_ostream &clang::operator<<(llvm::raw_ostream &OS,
const OMPTraitInfo *TI) {
return TI ? OS << *TI : OS;
}
TargetOMPContext::TargetOMPContext(
ASTContext &ASTCtx, std::function<void(StringRef)> &&DiagUnknownTrait,
const FunctionDecl *CurrentFunctionDecl,
ArrayRef<llvm::omp::TraitProperty> ConstructTraits)
: OMPContext(ASTCtx.getLangOpts().OpenMPIsDevice,
ASTCtx.getTargetInfo().getTriple()),
FeatureValidityCheck([&](StringRef FeatureName) {
return ASTCtx.getTargetInfo().isValidFeatureName(FeatureName);
}),
DiagUnknownTrait(std::move(DiagUnknownTrait)) {
ASTCtx.getFunctionFeatureMap(FeatureMap, CurrentFunctionDecl);
for (llvm::omp::TraitProperty Property : ConstructTraits)
addTrait(Property);
}
bool TargetOMPContext::matchesISATrait(StringRef RawString) const {
auto It = FeatureMap.find(RawString);
if (It != FeatureMap.end())
return It->second;
if (!FeatureValidityCheck(RawString))
DiagUnknownTrait(RawString);
return false;
}