maxjhandsome
/
llvm-project
forked from OSchip/llvm-project
1
0
Fork 0
Code Issues Pull Requests Packages Releases Wiki Activity

[OPENMP 4.0] Support for 'aligned' clause in 'declare simd' directive. 

The aligned clause declares that the object to which each list item points is aligned to the number of bytes expressed in the optional parameter of the aligned clause.
'aligned' '(' <argument-list> [ ':' <alignment> ] ')'
The optional parameter of the aligned clause, alignment, must be a constant positive integer expression. If no optional parameter is specified, implementation-defined default alignments for SIMD instructions on the target platforms are assumed.
The special this pointer can be used as if was one of the arguments to the function in any of the linear, aligned, or uniform clauses.

llvm-svn: 266052
This commit is contained in:
Alexey Bataev 2016-04-12 09:35:56 +00:00
parent 65f86cd8b0
commit d93d376ba9
9 changed files with 266 additions and 112 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

14
clang/include/clang/Basic/Attr.td
View File

@ -2276,7 +2276,8 @@ def OMPDeclareSimdDecl : Attr {
EnumArgument<"BranchState", "BranchStateTy",
[ "", "inbranch", "notinbranch" ],
[ "BS_Undefined", "BS_Inbranch", "BS_Notinbranch" ]>,
ExprArgument<"Simdlen">, VariadicExprArgument<"Uniforms">
ExprArgument<"Simdlen">, VariadicExprArgument<"Uniforms">,
VariadicExprArgument<"Aligneds">, VariadicExprArgument<"Alignments">
];
let AdditionalMembers = [{
void printPrettyPragma(raw_ostream & OS, const PrintingPolicy &Policy)
@ -2298,6 +2299,17 @@ def OMPDeclareSimdDecl : Attr {
}
OS << ") ";
}
alignments_iterator NI = alignments_begin();
for (auto E : aligneds()) {
OS << "aligned(";
E->printPretty(OS, nullptr, Policy);
if (*NI) {
OS << ": ";
(*NI)->printPretty(OS, nullptr, Policy);
}
OS << ") ";
++NI;
}
}
}];
}

2
clang/include/clang/Basic/DiagnosticSemaKinds.td
View File

@ -7950,7 +7950,7 @@ def err_omp_aligned_expected_array_or_ptr : Error<
"%select{ or pointer|, pointer, reference to array or reference to pointer}1"
", not %0">;
def err_omp_aligned_twice : Error<
"a variable cannot appear in more than one aligned clause">;
"%select{a variable|a parameter|'this'}0 cannot appear in more than one aligned clause">;
def err_omp_local_var_in_threadprivate_init : Error<
"variable with local storage in initial value of threadprivate variable">;
def err_omp_loop_not_canonical_init : Error<

3
clang/include/clang/Sema/Sema.h
View File

@ -8112,7 +8112,8 @@ public:
/// the associated method/function.
DeclGroupPtrTy ActOnOpenMPDeclareSimdDirective(
DeclGroupPtrTy DG, OMPDeclareSimdDeclAttr::BranchStateTy BS,
Expr *Simdlen, ArrayRef<Expr *> Uniforms, SourceRange SR);
Expr *Simdlen, ArrayRef<Expr *> Uniforms, ArrayRef<Expr *> Aligneds,
ArrayRef<Expr *> Alignments, SourceRange SR);
OMPClause *ActOnOpenMPSingleExprClause(OpenMPClauseKind Kind,
Expr *Expr,

137
clang/lib/Parse/ParseOpenMP.cpp
View File

@ -329,63 +329,6 @@ Parser::ParseOpenMPDeclareReductionDirective(AccessSpecifier AS) {
IsCorrect);
}
/// Parses clauses for 'declare simd' directive.
/// clause:
/// 'inbranch' | 'notinbranch'
/// 'simdlen' '(' <expr> ')'
/// { 'uniform' '(' <argument_list> ')' }
static bool parseDeclareSimdClauses(Parser &P,
OMPDeclareSimdDeclAttr::BranchStateTy &BS,
ExprResult &SimdLen,
SmallVectorImpl<Expr *> &Uniforms) {
SourceRange BSRange;
const Token &Tok = P.getCurToken();
bool IsError = false;
while (Tok.isNot(tok::annot_pragma_openmp_end)) {
if (Tok.isNot(tok::identifier))
break;
OMPDeclareSimdDeclAttr::BranchStateTy Out;
IdentifierInfo *II = Tok.getIdentifierInfo();
StringRef ClauseName = II->getName();
// Parse 'inranch|notinbranch' clauses.
if (OMPDeclareSimdDeclAttr::ConvertStrToBranchStateTy(ClauseName, Out)) {
if (BS != OMPDeclareSimdDeclAttr::BS_Undefined && BS != Out) {
P.Diag(Tok, diag::err_omp_declare_simd_inbranch_notinbranch)
<< ClauseName
<< OMPDeclareSimdDeclAttr::ConvertBranchStateTyToStr(BS) << BSRange;
IsError = true;
}
BS = Out;
BSRange = SourceRange(Tok.getLocation(), Tok.getEndLoc());
P.ConsumeToken();
} else if (ClauseName.equals("simdlen")) {
if (SimdLen.isUsable()) {
P.Diag(Tok, diag::err_omp_more_one_clause)
<< getOpenMPDirectiveName(OMPD_declare_simd) << ClauseName << 0;
IsError = true;
}
P.ConsumeToken();
SourceLocation RLoc;
SimdLen = P.ParseOpenMPParensExpr(ClauseName, RLoc);
if (SimdLen.isInvalid())
IsError = true;
} else if (ClauseName.equals("uniform")) {
Parser::OpenMPVarListDataTy Data;
P.ConsumeToken();
if (P.ParseOpenMPVarList(OMPD_declare_simd,
getOpenMPClauseKind(ClauseName), Uniforms, Data))
IsError = true;
} else
// TODO: add parsing of other clauses.
break;
// Skip ',' if any.
if (Tok.is(tok::comma))
P.ConsumeToken();
}
return IsError;
}
namespace {
/// RAII that recreates function context for correct parsing of clauses of
/// 'declare simd' construct.
@ -442,6 +385,75 @@ public:
};
} // namespace
/// Parses clauses for 'declare simd' directive.
/// clause:
/// 'inbranch' | 'notinbranch'
/// 'simdlen' '(' <expr> ')'
/// { 'uniform' '(' <argument_list> ')' }
/// { 'aligned '(' <argument_list> [ ':' <alignment> ] ')' }
static bool parseDeclareSimdClauses(Parser &P,
OMPDeclareSimdDeclAttr::BranchStateTy &BS,
ExprResult &SimdLen,
SmallVectorImpl<Expr *> &Uniforms,
SmallVectorImpl<Expr *> &Aligneds,
SmallVectorImpl<Expr *> &Alignments) {
SourceRange BSRange;
const Token &Tok = P.getCurToken();
bool IsError = false;
while (Tok.isNot(tok::annot_pragma_openmp_end)) {
if (Tok.isNot(tok::identifier))
break;
OMPDeclareSimdDeclAttr::BranchStateTy Out;
IdentifierInfo *II = Tok.getIdentifierInfo();
StringRef ClauseName = II->getName();
// Parse 'inranch|notinbranch' clauses.
if (OMPDeclareSimdDeclAttr::ConvertStrToBranchStateTy(ClauseName, Out)) {
if (BS != OMPDeclareSimdDeclAttr::BS_Undefined && BS != Out) {
P.Diag(Tok, diag::err_omp_declare_simd_inbranch_notinbranch)
<< ClauseName
<< OMPDeclareSimdDeclAttr::ConvertBranchStateTyToStr(BS) << BSRange;
IsError = true;
}
BS = Out;
BSRange = SourceRange(Tok.getLocation(), Tok.getEndLoc());
P.ConsumeToken();
} else if (ClauseName.equals("simdlen")) {
if (SimdLen.isUsable()) {
P.Diag(Tok, diag::err_omp_more_one_clause)
<< getOpenMPDirectiveName(OMPD_declare_simd) << ClauseName << 0;
IsError = true;
}
P.ConsumeToken();
SourceLocation RLoc;
SimdLen = P.ParseOpenMPParensExpr(ClauseName, RLoc);
if (SimdLen.isInvalid())
IsError = true;
} else {
OpenMPClauseKind CKind = getOpenMPClauseKind(ClauseName);
if (CKind == OMPC_uniform || CKind == OMPC_aligned) {
Parser::OpenMPVarListDataTy Data;
auto *Vars = &Uniforms;
if (CKind == OMPC_aligned) {
Vars = &Aligneds;
}
P.ConsumeToken();
if (P.ParseOpenMPVarList(OMPD_declare_simd,
getOpenMPClauseKind(ClauseName), *Vars, Data))
IsError = true;
if (CKind == OMPC_aligned)
Alignments.append(Aligneds.size() - Alignments.size(), Data.TailExpr);
} else
// TODO: add parsing of other clauses.
break;
}
// Skip ',' if any.
if (Tok.is(tok::comma))
P.ConsumeToken();
}
return IsError;
}
/// Parse clauses for '#pragma omp declare simd'.
Parser::DeclGroupPtrTy
Parser::ParseOMPDeclareSimdClauses(Parser::DeclGroupPtrTy Ptr,
@ -456,7 +468,10 @@ Parser::ParseOMPDeclareSimdClauses(Parser::DeclGroupPtrTy Ptr,
OMPDeclareSimdDeclAttr::BS_Undefined;
ExprResult Simdlen;
SmallVector<Expr *, 4> Uniforms;
bool IsError = parseDeclareSimdClauses(*this, BS, Simdlen, Uniforms);
SmallVector<Expr *, 4> Aligneds;
SmallVector<Expr *, 4> Alignments;
bool IsError = parseDeclareSimdClauses(*this, BS, Simdlen, Uniforms, Aligneds,
Alignments);
// Need to check for extra tokens.
if (Tok.isNot(tok::annot_pragma_openmp_end)) {
Diag(Tok, diag::warn_omp_extra_tokens_at_eol)
@ -466,9 +481,11 @@ Parser::ParseOMPDeclareSimdClauses(Parser::DeclGroupPtrTy Ptr,
}
// Skip the last annot_pragma_openmp_end.
SourceLocation EndLoc = ConsumeToken();
if (!IsError)
if (!IsError) {
return Actions.ActOnOpenMPDeclareSimdDirective(
Ptr, BS, Simdlen.get(), Uniforms, SourceRange(Loc, EndLoc));
Ptr, BS, Simdlen.get(), Uniforms, Aligneds, Alignments,
SourceRange(Loc, EndLoc));
}
return Ptr;
}

75
clang/lib/Sema/SemaOpenMP.cpp
View File

@ -3192,7 +3192,9 @@ StmtResult Sema::ActOnOpenMPExecutableDirective(
Sema::DeclGroupPtrTy Sema::ActOnOpenMPDeclareSimdDirective(
DeclGroupPtrTy DG, OMPDeclareSimdDeclAttr::BranchStateTy BS, Expr *Simdlen,
ArrayRef<Expr *> Uniforms, SourceRange SR) {
ArrayRef<Expr *> Uniforms, ArrayRef<Expr *> Aligneds,
ArrayRef<Expr *> Alignments, SourceRange SR) {
assert(Aligneds.size() == Alignments.size());
if (!DG || DG.get().isNull())
return DeclGroupPtrTy();
@ -3235,9 +3237,76 @@ Sema::DeclGroupPtrTy Sema::ActOnOpenMPDeclareSimdDirective(
Diag(E->getExprLoc(), diag::err_omp_param_or_this_in_clause)
<< FD->getDeclName() << (isa<CXXMethodDecl>(ADecl) ? 1 : 0);
}
// OpenMP [2.8.2, declare simd construct, Description]
// The aligned clause declares that the object to which each list item points
// is aligned to the number of bytes expressed in the optional parameter of
// the aligned clause.
// The special this pointer can be used as if was one of the arguments to the
// function in any of the linear, aligned, or uniform clauses.
// The type of list items appearing in the aligned clause must be array,
// pointer, reference to array, or reference to pointer.
llvm::DenseMap<Decl *, Expr *> AlignedArgs;
Expr *AlignedThis = nullptr;
for (auto *E : Aligneds) {
E = E->IgnoreParenImpCasts();
if (auto *DRE = dyn_cast<DeclRefExpr>(E))
if (auto *PVD = dyn_cast<ParmVarDecl>(DRE->getDecl())) {
auto *CanonPVD = PVD->getCanonicalDecl();
if (FD->getNumParams() > PVD->getFunctionScopeIndex() &&
FD->getParamDecl(PVD->getFunctionScopeIndex())
->getCanonicalDecl() == CanonPVD) {
// OpenMP [2.8.1, simd construct, Restrictions]
// A list-item cannot appear in more than one aligned clause.
if (AlignedArgs.count(CanonPVD) > 0) {
Diag(E->getExprLoc(), diag::err_omp_aligned_twice)
<< 1 << E->getSourceRange();
Diag(AlignedArgs[CanonPVD]->getExprLoc(),
diag::note_omp_explicit_dsa)
<< getOpenMPClauseName(OMPC_aligned);
continue;
}
AlignedArgs[CanonPVD] = E;
QualType QTy = PVD->getType()
.getNonReferenceType()
.getUnqualifiedType()
.getCanonicalType();
const Type *Ty = QTy.getTypePtrOrNull();
if (!Ty || (!Ty->isArrayType() && !Ty->isPointerType())) {
Diag(E->getExprLoc(), diag::err_omp_aligned_expected_array_or_ptr)
<< QTy << getLangOpts().CPlusPlus << E->getSourceRange();
Diag(PVD->getLocation(), diag::note_previous_decl) << PVD;
}
continue;
}
}
if (isa<CXXThisExpr>(E)) {
if (AlignedThis) {
Diag(E->getExprLoc(), diag::err_omp_aligned_twice)
<< 2 << E->getSourceRange();
Diag(AlignedThis->getExprLoc(), diag::note_omp_explicit_dsa)
<< getOpenMPClauseName(OMPC_aligned);
}
AlignedThis = E;
continue;
}
Diag(E->getExprLoc(), diag::err_omp_param_or_this_in_clause)
<< FD->getDeclName() << (isa<CXXMethodDecl>(ADecl) ? 1 : 0);
}
// The optional parameter of the aligned clause, alignment, must be a constant
// positive integer expression. If no optional parameter is specified,
// implementation-defined default alignments for SIMD instructions on the
// target platforms are assumed.
SmallVector<Expr *, 4> NewAligns;
for (auto *E : Alignments) {
ExprResult Align;
if (E)
Align = VerifyPositiveIntegerConstantInClause(E, OMPC_aligned);
NewAligns.push_back(Align.get());
}
auto *NewAttr = OMPDeclareSimdDeclAttr::CreateImplicit(
Context, BS, SL.get(), const_cast<Expr **>(Uniforms.data()),
Uniforms.size(), SR);
Uniforms.size(), const_cast<Expr **>(Aligneds.data()), Aligneds.size(),
const_cast<Expr **>(NewAligns.data()), NewAligns.size(), SR);
ADecl->addAttr(NewAttr);
return ConvertDeclToDeclGroup(ADecl);
}
@ -8859,7 +8928,7 @@ OMPClause *Sema::ActOnOpenMPAlignedClause(
// OpenMP [2.8.1, simd construct, Restrictions]
// A list-item cannot appear in more than one aligned clause.
if (Expr *PrevRef = DSAStack->addUniqueAligned(D, SimpleRefExpr)) {
Diag(ELoc, diag::err_omp_aligned_twice) << ERange;
Diag(ELoc, diag::err_omp_aligned_twice) << 0 << ERange;
Diag(PrevRef->getExprLoc(), diag::note_omp_explicit_dsa)
<< getOpenMPClauseName(OMPC_aligned);
continue;

20
clang/lib/Sema/SemaTemplateInstantiateDecl.cpp
View File

@ -247,7 +247,7 @@ static void instantiateOMPDeclareSimdDeclAttr(
New = FTD->getTemplatedDecl();
auto *FD = cast<FunctionDecl>(New);
auto *ThisContext = dyn_cast_or_null<CXXRecordDecl>(FD->getDeclContext());
SmallVector<Expr *, 4> Uniforms;
SmallVector<Expr *, 4> Uniforms, Aligneds, Alignments;
auto &&Subst = [&](Expr *E) -> ExprResult {
if (auto *DRE = dyn_cast<DeclRefExpr>(E->IgnoreParenImpCasts()))
@ -273,9 +273,21 @@ static void instantiateOMPDeclareSimdDeclAttr(
}
}
(void)S.ActOnOpenMPDeclareSimdDirective(S.ConvertDeclToDeclGroup(New),
Attr.getBranchState(), Simdlen.get(),
Uniforms, Attr.getRange());
auto AI = Attr.alignments_begin();
for (auto *E : Attr.aligneds()) {
ExprResult Inst = Subst(E);
if (Inst.isInvalid())
continue;
Aligneds.push_back(Inst.get());
Inst = ExprEmpty();
if (*AI)
Inst = S.SubstExpr(*AI, TemplateArgs);
Alignments.push_back(Inst.get());
++AI;
}
(void)S.ActOnOpenMPDeclareSimdDirective(
S.ConvertDeclToDeclGroup(New), Attr.getBranchState(), Simdlen.get(),
Uniforms, Aligneds, Alignments, Attr.getRange());
}
void Sema::InstantiateAttrs(const MultiLevelTemplateArgumentList &TemplateArgs,

12
clang/test/OpenMP/declare_simd_ast_print.c
View File

@ -6,16 +6,16 @@
#ifndef HEADER
#define HEADER
#pragma omp declare simd
#pragma omp declare simd simdlen(32)
#pragma omp declare simd aligned(b : 64)
#pragma omp declare simd simdlen(32) aligned(d, s1)
#pragma omp declare simd inbranch, uniform(d)
#pragma omp declare simd notinbranch simdlen(2), uniform(s1, s2)
void add_1(float *d, float *s1, float *s2) __attribute__((cold));
void add_1(float *d, float *s1, float *s2, double b[]) __attribute__((cold));
// CHECK: #pragma omp declare simd notinbranch simdlen(2) uniform(s1, s2)
// CHECK-NEXT: #pragma omp declare simd inbranch uniform(d)
// CHECK-NEXT: #pragma omp declare simd simdlen(32)
// CHECK-NEXT: #pragma omp declare simd
// CHECK-NEXT: void add_1(float *d, float *s1, float *s2) __attribute__((cold))
// CHECK-NEXT: #pragma omp declare simd simdlen(32) aligned(d) aligned(s1)
// CHECK-NEXT: #pragma omp declare simd aligned(b: 64)
// CHECK-NEXT: void add_1(float *d, float *s1, float *s2, double b[]) __attribute__((cold))
#endif

65
clang/test/OpenMP/declare_simd_ast_print.cpp
View File

@ -17,27 +17,27 @@ void add_1(float *d) __attribute__((cold));
// CHECK-NEXT: void add_1(float *d) __attribute__((cold));
//
#pragma omp declare simd
#pragma omp declare simd aligned(hp, hp2)
template <class C> void h(C *hp, C *hp2, C *hq, C *lin) {
}
// CHECK: #pragma omp declare simd
// CHECK: #pragma omp declare simd aligned(hp) aligned(hp2)
// CHECK-NEXT: template <class C = int> void h(int *hp, int *hp2, int *hq, int *lin) {
// CHECK-NEXT: h((float *)hp, (float *)hp2, (float *)hq, (float *)lin);
// CHECK-NEXT: }
// CHECK: #pragma omp declare simd
// CHECK: #pragma omp declare simd aligned(hp) aligned(hp2)
// CHECK-NEXT: template <class C = float> void h(float *hp, float *hp2, float *hq, float *lin) {
// CHECK-NEXT: }
// CHECK: #pragma omp declare simd
// CHECK: #pragma omp declare simd aligned(hp) aligned(hp2)
// CHECK: template <class C> void h(C *hp, C *hp2, C *hq, C *lin) {
// CHECK-NEXT: }
//
// Explicit specialization with <C=int>.
// Pragmas need to be same, otherwise standard says that's undefined behavior.
#pragma omp declare simd
#pragma omp declare simd aligned(hp, hp2)
template <>
void h(int *hp, int *hp2, int *hq, int *lin)
{
@ -55,31 +55,31 @@ class VV {
#pragma omp declare simd uniform(this, a)
int add(int a, int b) __attribute__((cold)) { return a + b; }
// CHECK: #pragma omp declare simd
// CHECK-NEXT: float taddpf(float *a, float *b) {
// CHECK: #pragma omp declare simd aligned(b: 4) aligned(a)
// CHECK-NEXT: float taddpf(float *a, float *&b) {
// CHECK-NEXT: return *a + *b;
// CHECK-NEXT: }
#pragma omp declare simd
float taddpf(float *a, float *b) { return *a + *b; }
#pragma omp declare simd aligned (b: 4) aligned(a)
float taddpf(float *a, float *&b) { return *a + *b; }
// CHECK: #pragma omp declare simd
// CHECK: #pragma omp declare simd aligned(b: 8)
// CHECK-NEXT: #pragma omp declare simd
// CHECK-NEXT: int tadd(int b) {
// CHECK-NEXT: return this->x[b] + b;
// CHECK-NEXT: int tadd(int (&b)[]) {
// CHECK-NEXT: return this->x[b[0]] + b[0];
// CHECK-NEXT: }
#pragma omp declare simd
#pragma omp declare simd
int tadd(int b) { return x[b] + b; }
#pragma omp declare simd aligned(b : 8)
int tadd(int (&b)[]) { return x[b[0]] + b[0]; }
private:
int x[10];
};
// CHECK: template <int X = 16> class TVV {
// CHECK: template <int X = 16, typename T = float> class TVV {
// CHECK: #pragma omp declare simd
// CHECK-NEXT: int tadd(int a, int b);
// CHECK: #pragma omp declare simd
// CHECK-NEXT: float taddpf(float *a, float *b) {
// CHECK: #pragma omp declare simd aligned(a: 16 * 2) aligned(b)
// CHECK-NEXT: float taddpf(float *a, float *&b) {
// CHECK-NEXT: return *a + *b;
// CHECK-NEXT: }
// CHECK: #pragma omp declare simd
@ -88,10 +88,10 @@ private:
// CHECK-NEXT: return this->x[b] + b;
// CHECK-NEXT: }
// CHECK: }
template <int X>
template <int X, typename T>
class TVV {
public:
// CHECK: template <int X> class TVV {
// CHECK: template <int X, typename T> class TVV {
#pragma omp declare simd simdlen(X)
int tadd(int a, int b) { return a + b; }
@ -100,11 +100,11 @@ public:
// CHECK-NEXT: return a + b;
// CHECK-NEXT: }
#pragma omp declare simd
float taddpf(float *a, float *b) { return *a + *b; }
#pragma omp declare simd aligned(a : X * 2) aligned(b)
float taddpf(float *a, T *&b) { return *a + *b; }
// CHECK: #pragma omp declare simd
// CHECK-NEXT: float taddpf(float *a, float *b) {
// CHECK: #pragma omp declare simd aligned(a: X * 2) aligned(b)
// CHECK-NEXT: float taddpf(float *a, T *&b) {
// CHECK-NEXT: return *a + *b;
// CHECK-NEXT: }
@ -123,20 +123,21 @@ private:
};
// CHECK: };
// CHECK: #pragma omp declare simd simdlen(64)
// CHECK: template <int N = 64> void foo(int (&)[64])
// CHECK: #pragma omp declare simd simdlen(N)
// CHECK: template <int N> void foo(int (&)[N])
#pragma omp declare simd simdlen(N)
// CHECK: #pragma omp declare simd simdlen(64) aligned(b: 64 * 2)
// CHECK: template <int N = 64> void foo(int (&b)[64])
// CHECK: #pragma omp declare simd simdlen(N) aligned(b: N * 2)
// CHECK: template <int N> void foo(int (&b)[N])
#pragma omp declare simd simdlen(N) aligned(b : N * 2)
template <int N>
void foo(int (&)[N]);
void foo(int (&b)[N]);
// CHECK: TVV<16> t16;
TVV<16> t16;
// CHECK: TVV<16, float> t16;
TVV<16, float> t16;
void f() {
float a = 1.0f, b = 2.0f;
float r = t16.taddpf(&a, &b);
float *p = &b;
float r = t16.taddpf(&a, p);
int res = t16.tadd(b);
int c[64];
foo(c);

50
clang/test/OpenMP/declare_simd_messages.cpp
View File

@ -75,10 +75,10 @@ void h(int *hp, int *hp2, int *hq, int *lin) {
#pragma omp declare simd simdlen() simdlen)
void foo();
// expected-error@+3 2 {{expected reference to one of the parameters of function 'foo'}}
// expected-error@+3 4 {{expected reference to one of the parameters of function 'foo'}}
// expected-error@+2 {{invalid use of 'this' outside of a non-static member function}}
// expected-error@+1 {{argument to 'simdlen' clause must be a strictly positive integer value}}
#pragma omp declare simd simdlen(N) uniform(this, var)
#pragma omp declare simd simdlen(N) uniform(this, var) aligned(var)
template<int N>
void foo() {}
@ -105,7 +105,46 @@ void test() {
#pragma omp declare simd uniform(this,a
// expected-error@+1 {{expected expression}}
#pragma omp declare simd uniform(,a)
void bar(int a);
// expected-error@+1 {{expected '(' after 'aligned'}}
#pragma omp declare simd aligned
// expected-note@+3 {{to match this '('}}
// expected-error@+2 {{expected ')'}}
// expected-error@+1 {{expected expression}}
#pragma omp declare simd aligned(
// expected-error@+1 {{expected expression}}
#pragma omp declare simd aligned()
// expected-note@+3 {{to match this '('}}
// expected-error@+2 {{expected ')'}}
// expected-error@+1 {{expected expression}}
#pragma omp declare simd aligned(a:
// expected-error@+1 {{expected expression}}
#pragma omp declare simd aligned(a:)
// expected-warning@+2 {{extra tokens at the end of '#pragma omp declare simd' are ignored}}
// expected-error@+1 {{expected '(' after 'aligned'}}
#pragma omp declare simd aligned :)
// expected-note@+3 {{to match this '('}}
// expected-error@+2 {{expected ')'}}
// expected-error@+1 {{invalid use of 'this' outside of a non-static member function}}
#pragma omp declare simd aligned(this
// expected-note@+3 {{to match this '('}}
// expected-error@+2 {{expected ')'}}
// expected-error@+1 {{invalid use of 'this' outside of a non-static member function}}
#pragma omp declare simd aligned(this,b
// expected-error@+1 {{expected expression}}
#pragma omp declare simd aligned(, b)
// expected-note@+4 {{defined as aligned}}
// expected-error@+3 {{a parameter cannot appear in more than one aligned clause}}
// expected-error@+2 {{expected expression}}
// expected-error@+1 {{expected ',' or ')' in 'aligned' clause}}
#pragma omp declare simd aligned(b) aligned(b ; 64)
// expected-note@+2 {{defined as aligned}}
// expected-error@+1 {{a parameter cannot appear in more than one aligned clause}}
#pragma omp declare simd aligned(b) aligned(b: 64)
// expected-error@+1 {{argument to 'aligned' clause must be a strictly positive integer value}}
#pragma omp declare simd aligned(b: -1)
// expected-warning@+1 {{aligned clause will be ignored because the requested alignment is not a power of 2}}
#pragma omp declare simd aligned(b: 3)
void bar(int a, int *b);
template <class T>
struct St {
@ -113,8 +152,11 @@ struct St {
#pragma init_seg(compiler)
#pragma omp declare simd
#pragma init_seg(compiler)
// expected-note@+4 {{defined as aligned}}
// expected-error@+3 {{argument to 'aligned' clause must be a strictly positive integer value}}
// expected-error@+2 {{'this' cannot appear in more than one aligned clause}}
// expected-error@+1 {{use of undeclared identifier 't'}}
#pragma omp declare simd uniform(this, t)
#pragma omp declare simd uniform(this, t) aligned(this: 4) aligned(this: -4)
void h(T *hp) {
// expected-error@+1 {{unexpected OpenMP directive '#pragma omp declare simd'}}
#pragma omp declare simd