llvm-project/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/Decl.h"
#include "clang/AST/DeclOpenMP.h"
#include "clang/Basic/LLVM.h"
#include "clang/Basic/OpenMPKinds.h"
#include "llvm/ADT/SmallPtrSet.h"
#include "llvm/Support/Casting.h"
#include "llvm/Support/ErrorHandling.h"
#include <algorithm>
#include <cassert>
using namespace clang;
OMPClause::child_range OMPClause::children() {
switch (getClauseKind()) {
default:
break;
#define OPENMP_CLAUSE(Name, Class) \
case OMPC_##Name: \
return static_cast<Class *>(this)->children();
#include "clang/Basic/OpenMPKinds.def"
}
llvm_unreachable("unknown OMPClause");
}
OMPClause::child_range OMPClause::used_children() {
switch (getClauseKind()) {
#define OPENMP_CLAUSE(Name, Class) \
case OMPC_##Name: \
return static_cast<Class *>(this)->used_children();
#include "clang/Basic/OpenMPKinds.def"
case OMPC_threadprivate:
case OMPC_uniform:
case OMPC_device_type:
case OMPC_match:
case OMPC_unknown:
break;
}
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_default:
case OMPC_proc_bind:
case OMPC_safelen:
case OMPC_simdlen:
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_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:
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_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_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:
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);
}
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];
}
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);
}
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());
}
OMPReductionClause *OMPReductionClause::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()));
OMPReductionClause *Clause = new (Mem) OMPReductionClause(
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;
}
OMPReductionClause *OMPReductionClause::CreateEmpty(const ASTContext &C,
unsigned N) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(5 * N));
return new (Mem) OMPReductionClause(N);
}
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);
}
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,
OpenMPDependClauseKind DepKind, SourceLocation DepLoc,
SourceLocation ColonLoc, ArrayRef<Expr *> VL,
unsigned NumLoops) {
void *Mem = C.Allocate(totalSizeToAlloc<Expr *>(VL.size() + NumLoops));
OMPDependClause *Clause = new (Mem)
OMPDependClause(StartLoc, LParenLoc, EndLoc, VL.size(), NumLoops);
Clause->setVarRefs(VL);
Clause->setDependencyKind(DepKind);
Clause->setDependencyLoc(DepLoc);
Clause->setColonLoc(ColonLoc);
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 + NumLoops));
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);
*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);
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.");
auto It = std::next(getVarRefs().end(), NumLoop);
return *It;
}
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,
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(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,
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(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:
// 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>(
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);
}
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());
}
//===----------------------------------------------------------------------===//
// OpenMP clauses printing methods
//===----------------------------------------------------------------------===//
void OMPClausePrinter::VisitOMPIfClause(OMPIfClause *Node) {
OS << "if(";
if (Node->getNameModifier() != llvm::omp::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::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::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::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 *) {
OS << "update";
}
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(";
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::VisitOMPDestroyClause(OMPDestroyClause *) {
OS << "destroy";
}
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(";
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(";
OS << getOpenMPSimpleClauseTypeName(Node->getClauseKind(),
Node->getDependencyKind());
if (!Node->varlist_empty()) {
OS << " :";
VisitOMPClauseList(Node, ' ');
}
OS << ")";
}
void OMPClausePrinter::VisitOMPMapClause(OMPMapClause *Node) {
if (!Node->varlist_empty()) {
OS << "map(";
if (Node->getMapType() != OMPC_MAP_unknown) {
for (unsigned I = 0; I < OMPMapClause::NumberOfModifiers; ++I) {
if (Node->getMapTypeModifier(I) != OMPC_MAP_MODIFIER_unknown) {
OS << getOpenMPSimpleClauseTypeName(OMPC_map,
Node->getMapTypeModifier(I));
if (Node->getMapTypeModifier(I) == OMPC_MAP_MODIFIER_mapper) {
OS << '(';
NestedNameSpecifier *MapperNNS =
Node->getMapperQualifierLoc().getNestedNameSpecifier();
if (MapperNNS)
MapperNNS->print(OS, Policy);
OS << Node->getMapperIdInfo() << ')';
}
OS << ',';
}
}
OS << getOpenMPSimpleClauseTypeName(OMPC_map, Node->getMapType());
OS << ':';
}
VisitOMPClauseList(Node, ' ');
OS << ")";
}
}
void OMPClausePrinter::VisitOMPToClause(OMPToClause *Node) {
if (!Node->varlist_empty()) {
OS << "to";
DeclarationNameInfo MapperId = Node->getMapperIdInfo();
if (MapperId.getName() && !MapperId.getName().isEmpty()) {
OS << '(';
OS << "mapper(";
NestedNameSpecifier *MapperNNS =
Node->getMapperQualifierLoc().getNestedNameSpecifier();
if (MapperNNS)
MapperNNS->print(OS, Policy);
OS << MapperId << "):";
VisitOMPClauseList(Node, ' ');
} else {
VisitOMPClauseList(Node, '(');
}
OS << ")";
}
}
void OMPClausePrinter::VisitOMPFromClause(OMPFromClause *Node) {
if (!Node->varlist_empty()) {
OS << "from";
DeclarationNameInfo MapperId = Node->getMapperIdInfo();
if (MapperId.getName() && !MapperId.getName().isEmpty()) {
OS << '(';
OS << "mapper(";
NestedNameSpecifier *MapperNNS =
Node->getMapperQualifierLoc().getNestedNameSpecifier();
if (MapperNNS)
MapperNNS->print(OS, Policy);
OS << MapperId << "):";
VisitOMPClauseList(Node, ' ');
} else {
VisitOMPClauseList(Node, '(');
}
OS << ")";
}
}
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());
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::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())
<< ")";
}
[OpenMP][Part 2] Use reusable OpenMP context/traits handling This patch implements an almost complete handling of OpenMP contexts/traits such that we can reuse most of the logic in Flang through the OMPContext.{h,cpp} in llvm/Frontend/OpenMP. All but construct SIMD specifiers, e.g., inbranch, and the device ISA selector are define in `llvm/lib/Frontend/OpenMP/OMPKinds.def`. From these definitions we generate the enum classes `TraitSet`, `TraitSelector`, and `TraitProperty` as well as conversion and helper functions in `llvm/lib/Frontend/OpenMP/OMPContext.{h,cpp}`. The above enum classes are used in the parser, sema, and the AST attribute. The latter is not a collection of multiple primitive variant arguments that contain encodings via numbers and strings but instead a tree that mirrors the `match` clause (see `struct OpenMPTraitInfo`). The changes to the parser make it more forgiving when wrong syntax is read and they also resulted in more specialized diagnostics. The tests are updated and the core issues are detected as before. Here and elsewhere this patch tries to be generic, thus we do not distinguish what selector set, selector, or property is parsed except if they do behave exceptionally, as for example `user={condition(EXPR)}` does. The sema logic changed in two ways: First, the OMPDeclareVariantAttr representation changed, as mentioned above, and the sema was adjusted to work with the new `OpenMPTraitInfo`. Second, the matching and scoring logic moved into `OMPContext.{h,cpp}`. It is implemented on a flat representation of the `match` clause that is not tied to clang. `OpenMPTraitInfo` provides a method to generate this flat structure (see `struct VariantMatchInfo`) by computing integer score values and boolean user conditions from the `clang::Expr` we keep for them. The OpenMP context is now an explicit object (see `struct OMPContext`). This is in anticipation of construct traits that need to be tracked. The OpenMP context, as well as the `VariantMatchInfo`, are basically made up of a set of active or respectively required traits, e.g., 'host', and an ordered container of constructs which allows duplication. Matching and scoring is kept as generic as possible to allow easy extension in the future. --- Test changes: The messages checked in `OpenMP/declare_variant_messages.{c,cpp}` have been auto generated to match the new warnings and notes of the parser. The "subset" checks were reversed causing the wrong version to be picked. The tests have been adjusted to correct this. We do not print scores if the user did not provide one. We print spaces to make lists in the `match` clause more legible. Reviewers: kiranchandramohan, ABataev, RaviNarayanaswamy, gtbercea, grokos, sdmitriev, JonChesterfield, hfinkel, fghanim Subscribers: merge_guards_bot, rampitec, mgorny, hiraditya, aheejin, fedor.sergeev, simoncook, bollu, guansong, dexonsmith, jfb, s.egerton, llvm-commits, cfe-commits Tags: #clang, #llvm Differential Revision: https://reviews.llvm.org/D71830
2019-12-20 10:42:12 +08:00
void OMPTraitInfo::getAsVariantMatchInfo(
ASTContext &ASTCtx, llvm::omp::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 == llvm::omp::TraitSelector::user_condition) {
assert(Selector.ScoreOrCondition &&
"Ill-formed user condition, expected condition expression!");
assert(Selector.Properties.size() == 1 &&
Selector.Properties.front().Kind ==
llvm::omp::TraitProperty::user_condition_unknown &&
"Ill-formed user condition, expected unknown trait property!");
llvm::APInt CondVal =
Selector.ScoreOrCondition->EvaluateKnownConstInt(ASTCtx);
VMI.addTrait(CondVal.isNullValue()
? llvm::omp::TraitProperty::user_condition_false
: llvm::omp::TraitProperty::user_condition_true);
continue;
}
llvm::APInt Score;
llvm::APInt *ScorePtr = nullptr;
if (Selector.ScoreOrCondition) {
Score = Selector.ScoreOrCondition->EvaluateKnownConstInt(ASTCtx);
ScorePtr = &Score;
}
for (const OMPTraitProperty &Property : Selector.Properties)
VMI.addTrait(Set.Kind, Property.Kind, ScorePtr);
if (Set.Kind != llvm::omp::TraitSet::construct)
continue;
// TODO: This might not hold once we implement SIMD properly.
assert(Selector.Properties.size() == 1 &&
Selector.Properties.front().Kind ==
llvm::omp::getOpenMPContextTraitPropertyForSelector(
Selector.Kind) &&
"Ill-formed construct selector!");
VMI.ConstructTraits.push_back(Selector.Properties.front().Kind);
}
}
}
void OMPTraitInfo::print(llvm::raw_ostream &OS,
const PrintingPolicy &Policy) const {
bool FirstSet = true;
for (const OMPTraitInfo::OMPTraitSet &Set : Sets) {
if (!FirstSet)
OS << ", ";
FirstSet = false;
OS << llvm::omp::getOpenMPContextTraitSetName(Set.Kind) << "={";
bool FirstSelector = true;
for (const OMPTraitInfo::OMPTraitSelector &Selector : Set.Selectors) {
if (!FirstSelector)
OS << ", ";
FirstSelector = false;
OS << llvm::omp::getOpenMPContextTraitSelectorName(Selector.Kind);
bool AllowsTraitScore = false;
bool RequiresProperty = false;
llvm::omp::isValidTraitSelectorForTraitSet(
Selector.Kind, Set.Kind, AllowsTraitScore, RequiresProperty);
if (!RequiresProperty)
continue;
OS << "(";
if (Selector.Kind == llvm::omp::TraitSelector::user_condition) {
Selector.ScoreOrCondition->printPretty(OS, nullptr, Policy);
} else {
if (Selector.ScoreOrCondition) {
OS << "score(";
Selector.ScoreOrCondition->printPretty(OS, nullptr, Policy);
OS << "): ";
}
bool FirstProperty = true;
for (const OMPTraitInfo::OMPTraitProperty &Property :
Selector.Properties) {
if (!FirstProperty)
OS << ", ";
FirstProperty = false;
OS << llvm::omp::getOpenMPContextTraitPropertyName(Property.Kind);
}
}
OS << ")";
}
OS << "}";
}
}
llvm::raw_ostream &clang::operator<<(llvm::raw_ostream &OS,
const OMPTraitInfo &TI) {
LangOptions LO;
PrintingPolicy Policy(LO);
TI.print(OS, Policy);
return OS;
}