Recommit: R258773 [OpenCL] Pipe builtin functions

Fix arc patch fuzz error.
Summary:
Support for the pipe built-in functions for OpenCL 2.0.
The pipe builtin functions may have infinite kinds of element types, one approach
would be to just generate calls that would always use generic types such as void*.
This patch is based on bader's opencl support patch on SPIR-V branch.

Reviewers: Anastasia, pekka.jaaskelainen

Subscribers: keryell, bader, cfe-commits

Differential Revision: http://reviews.llvm.org/D15914

llvm-svn: 258782
This commit is contained in:
Xiuli Pan 2016-01-26 04:03:48 +00:00
parent bdf08d5da6
commit bb4d8d30b1
8 changed files with 511 additions and 1 deletions

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@ -1252,6 +1252,32 @@ BUILTIN(__builtin___get_unsafe_stack_ptr, "v*", "Fn")
BUILTIN(__builtin_nontemporal_store, "v.", "t")
BUILTIN(__builtin_nontemporal_load, "v.", "t")
// OpenCL v2.0 s6.13.16, s9.17.3.5 - Pipe functions.
// We need the generic prototype, since the packet type could be anything.
LANGBUILTIN(read_pipe, "i.", "tn", OCLC_LANG)
LANGBUILTIN(write_pipe, "i.", "tn", OCLC_LANG)
LANGBUILTIN(reserve_read_pipe, "i.", "tn", OCLC_LANG)
LANGBUILTIN(reserve_write_pipe, "i.", "tn", OCLC_LANG)
LANGBUILTIN(commit_write_pipe, "v.", "tn", OCLC_LANG)
LANGBUILTIN(commit_read_pipe, "v.", "tn", OCLC_LANG)
LANGBUILTIN(sub_group_reserve_read_pipe, "i.", "tn", OCLC_LANG)
LANGBUILTIN(sub_group_reserve_write_pipe, "i.", "tn", OCLC_LANG)
LANGBUILTIN(sub_group_commit_read_pipe, "v.", "tn", OCLC_LANG)
LANGBUILTIN(sub_group_commit_write_pipe, "v.", "tn", OCLC_LANG)
LANGBUILTIN(work_group_reserve_read_pipe, "i.", "tn", OCLC_LANG)
LANGBUILTIN(work_group_reserve_write_pipe, "i.", "tn", OCLC_LANG)
LANGBUILTIN(work_group_commit_read_pipe, "v.", "tn", OCLC_LANG)
LANGBUILTIN(work_group_commit_write_pipe, "v.", "tn", OCLC_LANG)
LANGBUILTIN(get_pipe_num_packets, "Ui.", "tn", OCLC_LANG)
LANGBUILTIN(get_pipe_max_packets, "Ui.", "tn", OCLC_LANG)
#undef BUILTIN
#undef LIBBUILTIN
#undef LANGBUILTIN

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@ -36,6 +36,7 @@ enum LanguageID {
CXX_LANG = 0x4, // builtin for cplusplus only.
OBJC_LANG = 0x8, // builtin for objective-c and objective-c++
MS_LANG = 0x10, // builtin requires MS mode.
OCLC_LANG = 0x20,// builtin for OpenCL C only.
ALL_LANGUAGES = C_LANG | CXX_LANG | OBJC_LANG, // builtin for all languages.
ALL_GNU_LANGUAGES = ALL_LANGUAGES | GNU_LANG, // builtin requires GNU mode.
ALL_MS_LANGUAGES = ALL_LANGUAGES | MS_LANG // builtin requires MS mode.

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@ -7680,6 +7680,16 @@ def err_atomic_init_constant : Error<
def err_opencl_implicit_vector_conversion : Error<
"implicit conversions between vector types (%0 and %1) are not permitted">;
// OpenCL v2.0 s6.13.6 -- Builtin Pipe Functions
def err_opencl_builtin_pipe_first_arg : Error<
"first argument to %0 must be a pipe type">;
def err_opencl_builtin_pipe_arg_num : Error<
"invalid number of arguments to function: %0">;
def err_opencl_builtin_pipe_invalid_arg : Error<
"invalid argument type to function %0 (expecting %1)">;
def err_opencl_builtin_pipe_invalid_access_modifier : Error<
"invalid pipe access modifier (expecting %0)">;
// OpenCL Section 6.8.g
def err_opencl_unknown_type_specifier : Error<
"OpenCL does not support the '%0' %select{type qualifier|storage class specifier}1">;

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@ -69,7 +69,8 @@ bool Builtin::Context::builtinIsSupported(const Builtin::Info &BuiltinInfo,
bool MSModeUnsupported =
!LangOpts.MicrosoftExt && (BuiltinInfo.Langs & MS_LANG);
bool ObjCUnsupported = !LangOpts.ObjC1 && BuiltinInfo.Langs == OBJC_LANG;
return !BuiltinsUnsupported && !MathBuiltinsUnsupported &&
bool OclCUnsupported = !LangOpts.OpenCL && BuiltinInfo.Langs == OCLC_LANG;
return !BuiltinsUnsupported && !MathBuiltinsUnsupported && !OclCUnsupported &&
!GnuModeUnsupported && !MSModeUnsupported && !ObjCUnsupported;
}

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@ -1963,6 +1963,142 @@ RValue CodeGenFunction::EmitBuiltinExpr(const FunctionDecl *FD,
return RValue::get(llvm::ConstantExpr::getBitCast(GV, CGM.Int8PtrTy));
break;
}
// OpenCL v2.0 s6.13.16.2, Built-in pipe read and write functions
case Builtin::BIread_pipe:
case Builtin::BIwrite_pipe: {
Value *Arg0 = EmitScalarExpr(E->getArg(0)),
*Arg1 = EmitScalarExpr(E->getArg(1));
// Type of the generic packet parameter.
unsigned GenericAS =
getContext().getTargetAddressSpace(LangAS::opencl_generic);
llvm::Type *I8PTy = llvm::PointerType::get(
llvm::Type::getInt8Ty(getLLVMContext()), GenericAS);
// Testing which overloaded version we should generate the call for.
if (2U == E->getNumArgs()) {
const char *Name = (BuiltinID == Builtin::BIread_pipe) ? "__read_pipe_2"
: "__write_pipe_2";
// Creating a generic function type to be able to call with any builtin or
// user defined type.
llvm::Type *ArgTys[] = {Arg0->getType(), I8PTy};
llvm::FunctionType *FTy = llvm::FunctionType::get(
Int32Ty, llvm::ArrayRef<llvm::Type *>(ArgTys), false);
Value *BCast = Builder.CreatePointerCast(Arg1, I8PTy);
return RValue::get(Builder.CreateCall(
CGM.CreateRuntimeFunction(FTy, Name), {Arg0, BCast}));
} else {
assert(4 == E->getNumArgs() &&
"Illegal number of parameters to pipe function");
const char *Name = (BuiltinID == Builtin::BIread_pipe) ? "__read_pipe_4"
: "__write_pipe_4";
llvm::Type *ArgTys[] = {Arg0->getType(), Arg1->getType(), Int32Ty, I8PTy};
Value *Arg2 = EmitScalarExpr(E->getArg(2)),
*Arg3 = EmitScalarExpr(E->getArg(3));
llvm::FunctionType *FTy = llvm::FunctionType::get(
Int32Ty, llvm::ArrayRef<llvm::Type *>(ArgTys), false);
Value *BCast = Builder.CreatePointerCast(Arg3, I8PTy);
// We know the third argument is an integer type, but we may need to cast
// it to i32.
if (Arg2->getType() != Int32Ty)
Arg2 = Builder.CreateZExtOrTrunc(Arg2, Int32Ty);
return RValue::get(Builder.CreateCall(
CGM.CreateRuntimeFunction(FTy, Name), {Arg0, Arg1, Arg2, BCast}));
}
}
// OpenCL v2.0 s6.13.16 ,s9.17.3.5 - Built-in pipe reserve read and write
// functions
case Builtin::BIreserve_read_pipe:
case Builtin::BIreserve_write_pipe:
case Builtin::BIwork_group_reserve_read_pipe:
case Builtin::BIwork_group_reserve_write_pipe:
case Builtin::BIsub_group_reserve_read_pipe:
case Builtin::BIsub_group_reserve_write_pipe: {
// Composing the mangled name for the function.
const char *Name;
if (BuiltinID == Builtin::BIreserve_read_pipe)
Name = "__reserve_read_pipe";
else if (BuiltinID == Builtin::BIreserve_write_pipe)
Name = "__reserve_write_pipe";
else if (BuiltinID == Builtin::BIwork_group_reserve_read_pipe)
Name = "__work_group_reserve_read_pipe";
else if (BuiltinID == Builtin::BIwork_group_reserve_write_pipe)
Name = "__work_group_reserve_write_pipe";
else if (BuiltinID == Builtin::BIsub_group_reserve_read_pipe)
Name = "__sub_group_reserve_read_pipe";
else
Name = "__sub_group_reserve_write_pipe";
Value *Arg0 = EmitScalarExpr(E->getArg(0)),
*Arg1 = EmitScalarExpr(E->getArg(1));
llvm::Type *ReservedIDTy = ConvertType(getContext().OCLReserveIDTy);
// Building the generic function prototype.
llvm::Type *ArgTys[] = {Arg0->getType(), Int32Ty};
llvm::FunctionType *FTy = llvm::FunctionType::get(
ReservedIDTy, llvm::ArrayRef<llvm::Type *>(ArgTys), false);
// We know the second argument is an integer type, but we may need to cast
// it to i32.
if (Arg1->getType() != Int32Ty)
Arg1 = Builder.CreateZExtOrTrunc(Arg1, Int32Ty);
return RValue::get(
Builder.CreateCall(CGM.CreateRuntimeFunction(FTy, Name), {Arg0, Arg1}));
}
// OpenCL v2.0 s6.13.16 ,s9.17.3.5 - Built-in pipe commit read and write
// functions
case Builtin::BIcommit_read_pipe:
case Builtin::BIcommit_write_pipe:
case Builtin::BIwork_group_commit_read_pipe:
case Builtin::BIwork_group_commit_write_pipe:
case Builtin::BIsub_group_commit_read_pipe:
case Builtin::BIsub_group_commit_write_pipe: {
const char *Name;
if (BuiltinID == Builtin::BIcommit_read_pipe)
Name = "__commit_read_pipe";
else if (BuiltinID == Builtin::BIcommit_write_pipe)
Name = "__commit_write_pipe";
else if (BuiltinID == Builtin::BIwork_group_commit_read_pipe)
Name = "__work_group_commit_read_pipe";
else if (BuiltinID == Builtin::BIwork_group_commit_write_pipe)
Name = "__work_group_commit_write_pipe";
else if (BuiltinID == Builtin::BIsub_group_commit_read_pipe)
Name = "__sub_group_commit_read_pipe";
else
Name = "__sub_group_commit_write_pipe";
Value *Arg0 = EmitScalarExpr(E->getArg(0)),
*Arg1 = EmitScalarExpr(E->getArg(1));
// Building the generic function prototype.
llvm::Type *ArgTys[] = {Arg0->getType(), Arg1->getType()};
llvm::FunctionType *FTy =
llvm::FunctionType::get(llvm::Type::getVoidTy(getLLVMContext()),
llvm::ArrayRef<llvm::Type *>(ArgTys), false);
return RValue::get(
Builder.CreateCall(CGM.CreateRuntimeFunction(FTy, Name), {Arg0, Arg1}));
}
// OpenCL v2.0 s6.13.16.4 Built-in pipe query functions
case Builtin::BIget_pipe_num_packets:
case Builtin::BIget_pipe_max_packets: {
const char *Name;
if (BuiltinID == Builtin::BIget_pipe_num_packets)
Name = "__get_pipe_num_packets";
else
Name = "__get_pipe_max_packets";
// Building the generic function prototype.
Value *Arg0 = EmitScalarExpr(E->getArg(0));
llvm::Type *ArgTys[] = {Arg0->getType()};
llvm::FunctionType *FTy = llvm::FunctionType::get(
Int32Ty, llvm::ArrayRef<llvm::Type *>(ArgTys), false);
return RValue::get(
Builder.CreateCall(CGM.CreateRuntimeFunction(FTy, Name), {Arg0}));
}
case Builtin::BIprintf:
if (getLangOpts().CUDA && getLangOpts().CUDAIsDevice)
return EmitCUDADevicePrintfCallExpr(E, ReturnValue);

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@ -258,6 +258,192 @@ static bool SemaBuiltinSEHScopeCheck(Sema &SemaRef, CallExpr *TheCall,
return false;
}
/// Returns readable name for a call.
static StringRef getFunctionName(CallExpr *Call) {
return cast<FunctionDecl>(Call->getCalleeDecl())->getName();
}
/// Returns OpenCL access qual.
// TODO: Refine OpenCLImageAccessAttr to OpenCLAccessAttr since pipe can use
// it too
static OpenCLImageAccessAttr *getOpenCLArgAccess(const Decl *D) {
if (D->hasAttr<OpenCLImageAccessAttr>())
return D->getAttr<OpenCLImageAccessAttr>();
return nullptr;
}
/// Returns true if pipe element type is different from the pointer.
static bool checkOpenCLPipeArg(Sema &S, CallExpr *Call) {
const Expr *Arg0 = Call->getArg(0);
// First argument type should always be pipe.
if (!Arg0->getType()->isPipeType()) {
S.Diag(Call->getLocStart(), diag::err_opencl_builtin_pipe_first_arg)
<< getFunctionName(Call) << Arg0->getSourceRange();
return true;
}
OpenCLImageAccessAttr *AccessQual =
getOpenCLArgAccess(cast<DeclRefExpr>(Arg0)->getDecl());
// Validates the access qualifier is compatible with the call.
// OpenCL v2.0 s6.13.16 - The access qualifiers for pipe should only be
// read_only and write_only, and assumed to be read_only if no qualifier is
// specified.
bool isValid = true;
bool ReadOnly = getFunctionName(Call).find("read") != StringRef::npos;
if (ReadOnly)
isValid = AccessQual == nullptr || AccessQual->isReadOnly();
else
isValid = AccessQual != nullptr && AccessQual->isWriteOnly();
if (!isValid) {
const char *AM = ReadOnly ? "read_only" : "write_only";
S.Diag(Arg0->getLocStart(),
diag::err_opencl_builtin_pipe_invalid_access_modifier)
<< AM << Arg0->getSourceRange();
return true;
}
return false;
}
/// Returns true if pipe element type is different from the pointer.
static bool checkOpenCLPipePacketType(Sema &S, CallExpr *Call, unsigned Idx) {
const Expr *Arg0 = Call->getArg(0);
const Expr *ArgIdx = Call->getArg(Idx);
const PipeType *PipeTy = cast<PipeType>(Arg0->getType());
const Type *EltTy = PipeTy->getElementType().getTypePtr();
const PointerType *ArgTy =
dyn_cast<PointerType>(ArgIdx->getType().getTypePtr());
// The Idx argument should be a pointer and the type of the pointer and
// the type of pipe element should also be the same.
if (!ArgTy || EltTy != ArgTy->getPointeeType().getTypePtr()) {
S.Diag(Call->getLocStart(), diag::err_opencl_builtin_pipe_invalid_arg)
<< getFunctionName(Call)
<< S.Context.getPointerType(PipeTy->getElementType())
<< ArgIdx->getSourceRange();
return true;
}
return false;
}
// \brief Performs semantic analysis for the read/write_pipe call.
// \param S Reference to the semantic analyzer.
// \param Call A pointer to the builtin call.
// \return True if a semantic error has been found, false otherwise.
static bool SemaBuiltinRWPipe(Sema &S, CallExpr *Call) {
// Two kinds of read/write pipe
// From OpenCL C Specification 6.13.16.2 the built-in read/write
// functions have following forms.
switch (Call->getNumArgs()) {
case 2: {
if (checkOpenCLPipeArg(S, Call))
return true;
// The call with 2 arguments should be
// read/write_pipe(pipe T, T*)
// check packet type T
if (checkOpenCLPipePacketType(S, Call, 1))
return true;
} break;
case 4: {
if (checkOpenCLPipeArg(S, Call))
return true;
// The call with 4 arguments should be
// read/write_pipe(pipe T, reserve_id_t, uint, T*)
// check reserve_id_t
if (!Call->getArg(1)->getType()->isReserveIDT()) {
S.Diag(Call->getLocStart(), diag::err_opencl_builtin_pipe_invalid_arg)
<< getFunctionName(Call) << S.Context.OCLReserveIDTy
<< Call->getArg(1)->getSourceRange();
return true;
}
// check the index
const Expr *Arg2 = Call->getArg(2);
if (!Arg2->getType()->isIntegerType() &&
!Arg2->getType()->isUnsignedIntegerType()) {
S.Diag(Call->getLocStart(), diag::err_opencl_builtin_pipe_invalid_arg)
<< getFunctionName(Call) << S.Context.UnsignedIntTy
<< Arg2->getSourceRange();
return true;
}
// check packet type T
if (checkOpenCLPipePacketType(S, Call, 3))
return true;
} break;
default:
S.Diag(Call->getLocStart(), diag::err_opencl_builtin_pipe_arg_num)
<< getFunctionName(Call) << Call->getSourceRange();
return true;
}
return false;
}
// \brief Performs a semantic analysis on the {work_group_/sub_group_
// /_}reserve_{read/write}_pipe
// \param S Reference to the semantic analyzer.
// \param Call The call to the builtin function to be analyzed.
// \return True if a semantic error was found, false otherwise.
static bool SemaBuiltinReserveRWPipe(Sema &S, CallExpr *Call) {
if (checkArgCount(S, Call, 2))
return true;
if (checkOpenCLPipeArg(S, Call))
return true;
// check the reserve size
if (!Call->getArg(1)->getType()->isIntegerType() &&
!Call->getArg(1)->getType()->isUnsignedIntegerType()) {
S.Diag(Call->getLocStart(), diag::err_opencl_builtin_pipe_invalid_arg)
<< getFunctionName(Call) << S.Context.UnsignedIntTy
<< Call->getArg(1)->getSourceRange();
return true;
}
return false;
}
// \brief Performs a semantic analysis on {work_group_/sub_group_
// /_}commit_{read/write}_pipe
// \param S Reference to the semantic analyzer.
// \param Call The call to the builtin function to be analyzed.
// \return True if a semantic error was found, false otherwise.
static bool SemaBuiltinCommitRWPipe(Sema &S, CallExpr *Call) {
if (checkArgCount(S, Call, 2))
return true;
if (checkOpenCLPipeArg(S, Call))
return true;
// check reserve_id_t
if (!Call->getArg(1)->getType()->isReserveIDT()) {
S.Diag(Call->getLocStart(), diag::err_opencl_builtin_pipe_invalid_arg)
<< getFunctionName(Call) << S.Context.OCLReserveIDTy
<< Call->getArg(1)->getSourceRange();
return true;
}
return false;
}
// \brief Performs a semantic analysis on the call to built-in Pipe
// Query Functions.
// \param S Reference to the semantic analyzer.
// \param Call The call to the builtin function to be analyzed.
// \return True if a semantic error was found, false otherwise.
static bool SemaBuiltinPipePackets(Sema &S, CallExpr *Call) {
if (checkArgCount(S, Call, 1))
return true;
if (!Call->getArg(0)->getType()->isPipeType()) {
S.Diag(Call->getLocStart(), diag::err_opencl_builtin_pipe_first_arg)
<< getFunctionName(Call) << Call->getArg(0)->getSourceRange();
return true;
}
return false;
}
ExprResult
Sema::CheckBuiltinFunctionCall(FunctionDecl *FDecl, unsigned BuiltinID,
CallExpr *TheCall) {
@ -563,6 +749,40 @@ Sema::CheckBuiltinFunctionCall(FunctionDecl *FDecl, unsigned BuiltinID,
TheCall->setType(Context.VoidPtrTy);
break;
case Builtin::BIread_pipe:
case Builtin::BIwrite_pipe:
// Since those two functions are declared with var args, we need a semantic
// check for the argument.
if (SemaBuiltinRWPipe(*this, TheCall))
return ExprError();
break;
case Builtin::BIreserve_read_pipe:
case Builtin::BIreserve_write_pipe:
case Builtin::BIwork_group_reserve_read_pipe:
case Builtin::BIwork_group_reserve_write_pipe:
case Builtin::BIsub_group_reserve_read_pipe:
case Builtin::BIsub_group_reserve_write_pipe:
if (SemaBuiltinReserveRWPipe(*this, TheCall))
return ExprError();
// Since return type of reserve_read/write_pipe built-in function is
// reserve_id_t, which is not defined in the builtin def file , we used int
// as return type and need to override the return type of these functions.
TheCall->setType(Context.OCLReserveIDTy);
break;
case Builtin::BIcommit_read_pipe:
case Builtin::BIcommit_write_pipe:
case Builtin::BIwork_group_commit_read_pipe:
case Builtin::BIwork_group_commit_write_pipe:
case Builtin::BIsub_group_commit_read_pipe:
case Builtin::BIsub_group_commit_write_pipe:
if (SemaBuiltinCommitRWPipe(*this, TheCall))
return ExprError();
break;
case Builtin::BIget_pipe_num_packets:
case Builtin::BIget_pipe_max_packets:
if (SemaBuiltinPipePackets(*this, TheCall))
return ExprError();
break;
}

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@ -0,0 +1,61 @@
// RUN: %clang_cc1 -emit-llvm -O0 -cl-std=CL2.0 -o - %s | FileCheck %s
// CHECK: %opencl.pipe_t = type opaque
// CHECK: %opencl.reserve_id_t = type opaque
void test1(read_only pipe int p, global int *ptr) {
// CHECK: call i32 @__read_pipe_2(%opencl.pipe_t* %{{.*}}, i8* %{{.*}})
read_pipe(p, ptr);
// CHECK: call %opencl.reserve_id_t* @__reserve_read_pipe(%opencl.pipe_t* %{{.*}}, i32 {{.*}})
reserve_id_t rid = reserve_read_pipe(p, 2);
// CHECK: call i32 @__read_pipe_4(%opencl.pipe_t* %{{.*}}, %opencl.reserve_id_t* %{{.*}}, i32 {{.*}}, i8* %{{.*}})
read_pipe(p, rid, 2, ptr);
// CHECK: call void @__commit_read_pipe(%opencl.pipe_t* %{{.*}}, %opencl.reserve_id_t* %{{.*}})
commit_read_pipe(p, rid);
}
void test2(write_only pipe int p, global int *ptr) {
// CHECK: call i32 @__write_pipe_2(%opencl.pipe_t* %{{.*}}, i8* %{{.*}})
write_pipe(p, ptr);
// CHECK: call %opencl.reserve_id_t* @__reserve_write_pipe(%opencl.pipe_t* %{{.*}}, i32 {{.*}})
reserve_id_t rid = reserve_write_pipe(p, 2);
// CHECK: call i32 @__write_pipe_4(%opencl.pipe_t* %{{.*}}, %opencl.reserve_id_t* %{{.*}}, i32 {{.*}}, i8* %{{.*}})
write_pipe(p, rid, 2, ptr);
// CHECK: call void @__commit_write_pipe(%opencl.pipe_t* %{{.*}}, %opencl.reserve_id_t* %{{.*}})
commit_write_pipe(p, rid);
}
void test3(read_only pipe int p, global int *ptr) {
// CHECK: call %opencl.reserve_id_t* @__work_group_reserve_read_pipe(%opencl.pipe_t* %{{.*}}, i32 {{.*}})
reserve_id_t rid = work_group_reserve_read_pipe(p, 2);
// CHECK: call void @__work_group_commit_read_pipe(%opencl.pipe_t* %{{.*}}, %opencl.reserve_id_t* %{{.*}})
work_group_commit_read_pipe(p, rid);
}
void test4(write_only pipe int p, global int *ptr) {
// CHECK: call %opencl.reserve_id_t* @__work_group_reserve_write_pipe(%opencl.pipe_t* %{{.*}}, i32 {{.*}})
reserve_id_t rid = work_group_reserve_write_pipe(p, 2);
// CHECK: call void @__work_group_commit_write_pipe(%opencl.pipe_t* %{{.*}}, %opencl.reserve_id_t* %{{.*}})
work_group_commit_write_pipe(p, rid);
}
void test5(read_only pipe int p, global int *ptr) {
// CHECK: call %opencl.reserve_id_t* @__sub_group_reserve_read_pipe(%opencl.pipe_t* %{{.*}}, i32 {{.*}})
reserve_id_t rid = sub_group_reserve_read_pipe(p, 2);
// CHECK: call void @__sub_group_commit_read_pipe(%opencl.pipe_t* %{{.*}}, %opencl.reserve_id_t* %{{.*}})
sub_group_commit_read_pipe(p, rid);
}
void test6(write_only pipe int p, global int *ptr) {
// CHECK: call %opencl.reserve_id_t* @__sub_group_reserve_write_pipe(%opencl.pipe_t* %{{.*}}, i32 {{.*}})
reserve_id_t rid = sub_group_reserve_write_pipe(p, 2);
// CHECK: call void @__sub_group_commit_write_pipe(%opencl.pipe_t* %{{.*}}, %opencl.reserve_id_t* %{{.*}})
sub_group_commit_write_pipe(p, rid);
}
void test7(write_only pipe int p, global int *ptr) {
// CHECK: call i32 @__get_pipe_num_packets(%opencl.pipe_t* %{{.*}})
*ptr = get_pipe_num_packets(p);
// CHECK: call i32 @__get_pipe_max_packets(%opencl.pipe_t* %{{.*}})
*ptr = get_pipe_max_packets(p);
}

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@ -0,0 +1,55 @@
// RUN: %clang_cc1 %s -verify -pedantic -fsyntax-only -cl-std=CL2.0
void test1(read_only pipe int p, global int* ptr){
int tmp;
reserve_id_t rid;
// read/write_pipe
read_pipe(tmp, p); // expected-error {{first argument to read_pipe must be a pipe type}}
read_pipe(p); // expected-error {{invalid number of arguments to function: read_pipe}}
read_pipe(p, tmp, tmp, ptr); // expected-error {{invalid argument type to function read_pipe (expecting 'reserve_id_t')}}
read_pipe(p, rid, rid, ptr); // expected-error {{invalid argument type to function read_pipe (expecting 'unsigned int')}}
read_pipe(p, tmp); // expected-error {{invalid argument type to function read_pipe (expecting 'int *')}}
write_pipe(p, ptr); // expected-error {{invalid pipe access modifier (expecting write_only)}}
write_pipe(p, rid, tmp, ptr); // expected-error {{invalid pipe access modifier (expecting write_only)}}
// reserve_read/write_pipe
reserve_read_pipe(p, ptr); // expected-error{{invalid argument type to function reserve_read_pipe (expecting 'unsigned int')}}
work_group_reserve_read_pipe(tmp, tmp); // expected-error{{first argument to work_group_reserve_read_pipe must be a pipe type}}
sub_group_reserve_write_pipe(p, tmp); // expected-error{{invalid pipe access modifier (expecting write_only)}}
// commit_read/write_pipe
commit_read_pipe(tmp, rid); // expected-error{{first argument to commit_read_pipe must be a pipe type}}
work_group_commit_read_pipe(p, tmp); // expected-error{{invalid argument type to function work_group_commit_read_pipe (expecting 'reserve_id_t')}}
sub_group_commit_write_pipe(p, tmp); // expected-error{{nvalid pipe access modifier (expecting write_only)}}
}
void test2(write_only pipe int p, global int* ptr){
int tmp;
reserve_id_t rid;
// read/write_pipe
write_pipe(tmp, p); // expected-error {{first argument to write_pipe must be a pipe type}}
write_pipe(p); // expected-error {{invalid number of arguments to function: write_pipe}}
write_pipe(p, tmp, tmp, ptr); // expected-error {{invalid argument type to function write_pipe (expecting 'reserve_id_t')}}
write_pipe(p, rid, rid, ptr); // expected-error {{invalid argument type to function write_pipe (expecting 'unsigned int')}}
write_pipe(p, tmp); // expected-error {{invalid argument type to function write_pipe (expecting 'int *')}}
read_pipe(p, ptr); // expected-error {{invalid pipe access modifier (expecting read_only)}}
read_pipe(p, rid, tmp, ptr); // expected-error {{invalid pipe access modifier (expecting read_only)}}
// reserve_read/write_pipe
reserve_write_pipe(p, ptr); // expected-error{{invalid argument type to function reserve_write_pipe (expecting 'unsigned int')}}
work_group_reserve_write_pipe(tmp, tmp); // expected-error{{first argument to work_group_reserve_write_pipe must be a pipe type}}
sub_group_reserve_read_pipe(p, tmp); // expected-error{{invalid pipe access modifier (expecting read_only)}}
// commit_read/write_pipe
commit_write_pipe(tmp, rid); // expected-error{{first argument to commit_write_pipe must be a pipe type}}
work_group_commit_write_pipe(p, tmp); // expected-error{{invalid argument type to function work_group_commit_write_pipe (expecting 'reserve_id_t')}}
sub_group_commit_read_pipe(p, tmp); // expected-error{{nvalid pipe access modifier (expecting read_only)}}
}
void test3(){
int tmp;
get_pipe_num_packets(tmp); // expected-error {{first argument to get_pipe_num_packets must be a pipe type}}
get_pipe_max_packets(tmp); // expected-error {{first argument to get_pipe_max_packets must be a pipe type}}
}