llvm/lib/Target/AMDGPU/MCTargetDesc/AMDGPUCodeObjectMetadataStreamer.cpp - toolchain/llvm-project - Gitiles

 //===--- AMDGPUCodeObjectMetadataStreamer.cpp -------------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 /// \file
 /// \brief AMDGPU Code Object Metadata Streamer.
 ///
 //
 //===----------------------------------------------------------------------===//

 #include "AMDGPUCodeObjectMetadataStreamer.h"
 #include "AMDGPU.h"
 #include "llvm/ADT/StringSwitch.h"
 #include "llvm/IR/Constants.h"
 #include "llvm/IR/Module.h"
 #include "llvm/Support/raw_ostream.h"

 namespace llvm {

 static cl::opt<bool> DumpCodeObjectMetadata(
     "amdgpu-dump-comd",
     cl::desc("Dump AMDGPU Code Object Metadata"));
 static cl::opt<bool> VerifyCodeObjectMetadata(
     "amdgpu-verify-comd",
     cl::desc("Verify AMDGPU Code Object Metadata"));

 namespace AMDGPU {
 namespace CodeObject {

 void MetadataStreamer::dump(StringRef YamlString) const {
   errs() << "AMDGPU Code Object Metadata:\n" << YamlString << '\n';
 }

 void MetadataStreamer::verify(StringRef YamlString) const {
   errs() << "AMDGPU Code Object Metadata Parser Test: ";

   CodeObject::Metadata FromYamlString;
   if (Metadata::fromYamlString(YamlString, FromYamlString)) {
     errs() << "FAIL\n";
     return;
   }

   std::string ToYamlString;
   if (Metadata::toYamlString(FromYamlString, ToYamlString)) {
     errs() << "FAIL\n";
     return;
   }

   errs() << (YamlString == ToYamlString ? "PASS" : "FAIL") << '\n';
   if (YamlString != ToYamlString) {
     errs() << "Original input: " << YamlString << '\n'
            << "Produced output: " << ToYamlString << '\n';
   }
 }

 AccessQualifier MetadataStreamer::getAccessQualifier(StringRef AccQual) const {
   if (AccQual.empty())
     return AccessQualifier::Unknown;

   return StringSwitch<AccessQualifier>(AccQual)
              .Case("read_only",  AccessQualifier::ReadOnly)
              .Case("write_only", AccessQualifier::WriteOnly)
              .Case("read_write", AccessQualifier::ReadWrite)
              .Default(AccessQualifier::Default);
 }

 AddressSpaceQualifier MetadataStreamer::getAddressSpaceQualifer(
     unsigned AddressSpace) const {
   if (AddressSpace == AMDGPUASI.PRIVATE_ADDRESS)
     return AddressSpaceQualifier::Private;
   if (AddressSpace == AMDGPUASI.GLOBAL_ADDRESS)
     return AddressSpaceQualifier::Global;
   if (AddressSpace == AMDGPUASI.CONSTANT_ADDRESS)
     return AddressSpaceQualifier::Constant;
   if (AddressSpace == AMDGPUASI.LOCAL_ADDRESS)
     return AddressSpaceQualifier::Local;
   if (AddressSpace == AMDGPUASI.FLAT_ADDRESS)
     return AddressSpaceQualifier::Generic;
   if (AddressSpace == AMDGPUASI.REGION_ADDRESS)
     return AddressSpaceQualifier::Region;

   llvm_unreachable("Unknown address space qualifier");
 }

 ValueKind MetadataStreamer::getValueKind(Type *Ty, StringRef TypeQual,
                                          StringRef BaseTypeName) const {
   if (TypeQual.find("pipe") != StringRef::npos)
     return ValueKind::Pipe;

   return StringSwitch<ValueKind>(BaseTypeName)
              .Case("image1d_t", ValueKind::Image)
              .Case("image1d_array_t", ValueKind::Image)
              .Case("image1d_buffer_t", ValueKind::Image)
              .Case("image2d_t", ValueKind::Image)
              .Case("image2d_array_t", ValueKind::Image)
              .Case("image2d_array_depth_t", ValueKind::Image)
              .Case("image2d_array_msaa_t", ValueKind::Image)
              .Case("image2d_array_msaa_depth_t", ValueKind::Image)
              .Case("image2d_depth_t", ValueKind::Image)
              .Case("image2d_msaa_t", ValueKind::Image)
              .Case("image2d_msaa_depth_t", ValueKind::Image)
              .Case("image3d_t", ValueKind::Image)
              .Case("sampler_t", ValueKind::Sampler)
              .Case("queue_t", ValueKind::Queue)
              .Default(isa<PointerType>(Ty) ?
                           (Ty->getPointerAddressSpace() ==
                            AMDGPUASI.LOCAL_ADDRESS ?
                            ValueKind::DynamicSharedPointer :
                            ValueKind::GlobalBuffer) :
                       ValueKind::ByValue);
 }

 ValueType MetadataStreamer::getValueType(Type *Ty, StringRef TypeName) const {
   switch (Ty->getTypeID()) {
   case Type::IntegerTyID: {
     auto Signed = !TypeName.startswith("u");
     switch (Ty->getIntegerBitWidth()) {
     case 8:
       return Signed ? ValueType::I8 : ValueType::U8;
     case 16:
       return Signed ? ValueType::I16 : ValueType::U16;
     case 32:
       return Signed ? ValueType::I32 : ValueType::U32;
     case 64:
       return Signed ? ValueType::I64 : ValueType::U64;
     default:
       return ValueType::Struct;
     }
   }
   case Type::HalfTyID:
     return ValueType::F16;
   case Type::FloatTyID:
     return ValueType::F32;
   case Type::DoubleTyID:
     return ValueType::F64;
   case Type::PointerTyID:
     return getValueType(Ty->getPointerElementType(), TypeName);
   case Type::VectorTyID:
     return getValueType(Ty->getVectorElementType(), TypeName);
   default:
     return ValueType::Struct;
   }
 }

 std::string MetadataStreamer::getTypeName(Type *Ty, bool Signed) const {
   switch (Ty->getTypeID()) {
   case Type::IntegerTyID: {
     if (!Signed)
       return (Twine('u') + getTypeName(Ty, true)).str();

     auto BitWidth = Ty->getIntegerBitWidth();
     switch (BitWidth) {
     case 8:
       return "char";
     case 16:
       return "short";
     case 32:
       return "int";
     case 64:
       return "long";
     default:
       return (Twine('i') + Twine(BitWidth)).str();
     }
   }
   case Type::HalfTyID:
     return "half";
   case Type::FloatTyID:
     return "float";
   case Type::DoubleTyID:
     return "double";
   case Type::VectorTyID: {
     auto VecTy = cast<VectorType>(Ty);
     auto ElTy = VecTy->getElementType();
     auto NumElements = VecTy->getVectorNumElements();
     return (Twine(getTypeName(ElTy, Signed)) + Twine(NumElements)).str();
   }
   default:
     return "unknown";
   }
 }

 std::vector<uint32_t> MetadataStreamer::getWorkGroupDimensions(
     MDNode *Node) const {
   std::vector<uint32_t> Dims;
   if (Node->getNumOperands() != 3)
     return Dims;

   for (auto &Op : Node->operands())
     Dims.push_back(mdconst::extract<ConstantInt>(Op)->getZExtValue());
   return Dims;
 }

 void MetadataStreamer::emitVersion() {
   auto &Version = CodeObjectMetadata.mVersion;

   Version.push_back(MetadataVersionMajor);
   Version.push_back(MetadataVersionMinor);
 }

 void MetadataStreamer::emitPrintf(const Module &Mod) {
   auto &Printf = CodeObjectMetadata.mPrintf;

   auto Node = Mod.getNamedMetadata("llvm.printf.fmts");
   if (!Node)
     return;

   for (auto Op : Node->operands())
     if (Op->getNumOperands())
       Printf.push_back(cast<MDString>(Op->getOperand(0))->getString());
 }

 void MetadataStreamer::emitKernelLanguage(const Function &Func) {
   auto &Kernel = CodeObjectMetadata.mKernels.back();

   // TODO: What about other languages?
   auto Node = Func.getParent()->getNamedMetadata("opencl.ocl.version");
   if (!Node || !Node->getNumOperands())
     return;
   auto Op0 = Node->getOperand(0);
   if (Op0->getNumOperands() <= 1)
     return;

   Kernel.mLanguage = "OpenCL C";
   Kernel.mLanguageVersion.push_back(
       mdconst::extract<ConstantInt>(Op0->getOperand(0))->getZExtValue());
   Kernel.mLanguageVersion.push_back(
       mdconst::extract<ConstantInt>(Op0->getOperand(1))->getZExtValue());
 }

 void MetadataStreamer::emitKernelAttrs(const Function &Func) {
   auto &Attrs = CodeObjectMetadata.mKernels.back().mAttrs;

   if (auto Node = Func.getMetadata("reqd_work_group_size"))
     Attrs.mReqdWorkGroupSize = getWorkGroupDimensions(Node);
   if (auto Node = Func.getMetadata("work_group_size_hint"))
     Attrs.mWorkGroupSizeHint = getWorkGroupDimensions(Node);
   if (auto Node = Func.getMetadata("vec_type_hint")) {
     Attrs.mVecTypeHint = getTypeName(
         cast<ValueAsMetadata>(Node->getOperand(0))->getType(),
         mdconst::extract<ConstantInt>(Node->getOperand(1))->getZExtValue());
   }
   if (Func.hasFnAttribute("runtime-handle")) {
     Attrs.mRuntimeHandle =
         Func.getFnAttribute("runtime-handle").getValueAsString().str();
   }
 }

 void MetadataStreamer::emitKernelArgs(const Function &Func) {
   for (auto &Arg : Func.args())
     emitKernelArg(Arg);

   // TODO: What about other languages?
   if (!Func.getParent()->getNamedMetadata("opencl.ocl.version"))
     return;

   auto &DL = Func.getParent()->getDataLayout();
   auto Int64Ty = Type::getInt64Ty(Func.getContext());

   emitKernelArg(DL, Int64Ty, ValueKind::HiddenGlobalOffsetX);
   emitKernelArg(DL, Int64Ty, ValueKind::HiddenGlobalOffsetY);
   emitKernelArg(DL, Int64Ty, ValueKind::HiddenGlobalOffsetZ);

   if (!Func.getParent()->getNamedMetadata("llvm.printf.fmts"))
     return;

   auto Int8PtrTy = Type::getInt8PtrTy(Func.getContext(),
                                       AMDGPUASI.GLOBAL_ADDRESS);
   emitKernelArg(DL, Int8PtrTy, ValueKind::HiddenPrintfBuffer);
 }

 void MetadataStreamer::emitKernelArg(const Argument &Arg) {
   auto Func = Arg.getParent();
   auto ArgNo = Arg.getArgNo();
   const MDNode *Node;

   StringRef TypeQual;
   Node = Func->getMetadata("kernel_arg_type_qual");
   if (Node && ArgNo < Node->getNumOperands())
     TypeQual = cast<MDString>(Node->getOperand(ArgNo))->getString();

   StringRef BaseTypeName;
   Node = Func->getMetadata("kernel_arg_base_type");
   if (Node && ArgNo < Node->getNumOperands())
     BaseTypeName = cast<MDString>(Node->getOperand(ArgNo))->getString();

   StringRef AccQual;
   if (Arg.getType()->isPointerTy() && Arg.onlyReadsMemory() &&
       Arg.hasNoAliasAttr()) {
     AccQual = "read_only";
   } else {
     Node = Func->getMetadata("kernel_arg_access_qual");
     if (Node && ArgNo < Node->getNumOperands())
       AccQual = cast<MDString>(Node->getOperand(ArgNo))->getString();
   }

   StringRef Name;
   Node = Func->getMetadata("kernel_arg_name");
   if (Node && ArgNo < Node->getNumOperands())
     Name = cast<MDString>(Node->getOperand(ArgNo))->getString();

   StringRef TypeName;
   Node = Func->getMetadata("kernel_arg_type");
   if (Node && ArgNo < Node->getNumOperands())
     TypeName = cast<MDString>(Node->getOperand(ArgNo))->getString();

   emitKernelArg(Func->getParent()->getDataLayout(), Arg.getType(),
                 getValueKind(Arg.getType(), TypeQual, BaseTypeName), TypeQual,
                 BaseTypeName, AccQual, Name, TypeName);
 }

 void MetadataStreamer::emitKernelArg(const DataLayout &DL, Type *Ty,
                                      ValueKind ValueKind, StringRef TypeQual,
                                      StringRef BaseTypeName, StringRef AccQual,
                                      StringRef Name, StringRef TypeName) {
   CodeObjectMetadata.mKernels.back().mArgs.push_back(Kernel::Arg::Metadata());
   auto &Arg = CodeObjectMetadata.mKernels.back().mArgs.back();

   Arg.mSize = DL.getTypeAllocSize(Ty);
   Arg.mAlign = DL.getABITypeAlignment(Ty);
   Arg.mValueKind = ValueKind;
   Arg.mValueType = getValueType(Ty, BaseTypeName);

   if (auto PtrTy = dyn_cast<PointerType>(Ty)) {
     auto ElTy = PtrTy->getElementType();
     if (PtrTy->getAddressSpace() == AMDGPUASI.LOCAL_ADDRESS && ElTy->isSized())
       Arg.mPointeeAlign = DL.getABITypeAlignment(ElTy);
   }

   Arg.mAccQual = getAccessQualifier(AccQual);

   if (auto PtrTy = dyn_cast<PointerType>(Ty))
     Arg.mAddrSpaceQual = getAddressSpaceQualifer(PtrTy->getAddressSpace());

   SmallVector<StringRef, 1> SplitTypeQuals;
   TypeQual.split(SplitTypeQuals, " ", -1, false);
   for (StringRef Key : SplitTypeQuals) {
     auto P = StringSwitch<bool*>(Key)
                  .Case("const",    &Arg.mIsConst)
                  .Case("pipe",     &Arg.mIsPipe)
                  .Case("restrict", &Arg.mIsRestrict)
                  .Case("volatile", &Arg.mIsVolatile)
                  .Default(nullptr);
     if (P)
       *P = true;
   }

   Arg.mName = Name;
   Arg.mTypeName = TypeName;
 }

 void MetadataStreamer::emitKernelCodeProps(
     const amd_kernel_code_t &KernelCode) {
   auto &CodeProps = CodeObjectMetadata.mKernels.back().mCodeProps;

   CodeProps.mKernargSegmentSize = KernelCode.kernarg_segment_byte_size;
   CodeProps.mWorkgroupGroupSegmentSize =
       KernelCode.workgroup_group_segment_byte_size;
   CodeProps.mWorkitemPrivateSegmentSize =
       KernelCode.workitem_private_segment_byte_size;
   CodeProps.mWavefrontNumSGPRs = KernelCode.wavefront_sgpr_count;
   CodeProps.mWorkitemNumVGPRs = KernelCode.workitem_vgpr_count;
   CodeProps.mKernargSegmentAlign = KernelCode.kernarg_segment_alignment;
   CodeProps.mGroupSegmentAlign = KernelCode.group_segment_alignment;
   CodeProps.mPrivateSegmentAlign = KernelCode.private_segment_alignment;
   CodeProps.mWavefrontSize = KernelCode.wavefront_size;
 }

 void MetadataStreamer::emitKernelDebugProps(
     const amd_kernel_code_t &KernelCode) {
   if (!(KernelCode.code_properties & AMD_CODE_PROPERTY_IS_DEBUG_SUPPORTED))
     return;

   auto &DebugProps = CodeObjectMetadata.mKernels.back().mDebugProps;

   // FIXME: Need to pass down debugger ABI version through features. This is ok
   // for now because we only have one version.
   DebugProps.mDebuggerABIVersion.push_back(1);
   DebugProps.mDebuggerABIVersion.push_back(0);
   DebugProps.mReservedNumVGPRs = KernelCode.reserved_vgpr_count;
   DebugProps.mReservedFirstVGPR = KernelCode.reserved_vgpr_first;
   DebugProps.mPrivateSegmentBufferSGPR =
       KernelCode.debug_private_segment_buffer_sgpr;
   DebugProps.mWavefrontPrivateSegmentOffsetSGPR =
       KernelCode.debug_wavefront_private_segment_offset_sgpr;
 }

 void MetadataStreamer::begin(const Module &Mod) {
   AMDGPUASI = getAMDGPUAS(Mod);
   emitVersion();
   emitPrintf(Mod);
 }

 void MetadataStreamer::emitKernel(const Function &Func,
                                   const amd_kernel_code_t &KernelCode) {
   if (Func.getCallingConv() != CallingConv::AMDGPU_KERNEL)
     return;

   CodeObjectMetadata.mKernels.push_back(Kernel::Metadata());
   auto &Kernel = CodeObjectMetadata.mKernels.back();

   Kernel.mName = Func.getName();
   emitKernelLanguage(Func);
   emitKernelAttrs(Func);
   emitKernelArgs(Func);
   emitKernelCodeProps(KernelCode);
   emitKernelDebugProps(KernelCode);
 }

 ErrorOr<std::string> MetadataStreamer::toYamlString() {
   std::string YamlString;
   if (auto Error = Metadata::toYamlString(CodeObjectMetadata, YamlString))
     return Error;

   if (DumpCodeObjectMetadata)
     dump(YamlString);
   if (VerifyCodeObjectMetadata)
     verify(YamlString);

   return YamlString;
 }

 ErrorOr<std::string> MetadataStreamer::toYamlString(StringRef YamlString) {
   if (auto Error = Metadata::fromYamlString(YamlString, CodeObjectMetadata))
     return Error;

   return toYamlString();
 }

 } // end namespace CodeObject
 } // end namespace AMDGPU
 } // end namespace llvm
	//===--- AMDGPUCodeObjectMetadataStreamer.cpp -------------------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	/// \file
	/// \brief AMDGPU Code Object Metadata Streamer.
	///
	//
	//===----------------------------------------------------------------------===//

	#include "AMDGPUCodeObjectMetadataStreamer.h"
	#include "AMDGPU.h"
	#include "llvm/ADT/StringSwitch.h"
	#include "llvm/IR/Constants.h"
	#include "llvm/IR/Module.h"
	#include "llvm/Support/raw_ostream.h"

	namespace llvm {

	static cl::opt<bool> DumpCodeObjectMetadata(
	"amdgpu-dump-comd",
	cl::desc("Dump AMDGPU Code Object Metadata"));
	static cl::opt<bool> VerifyCodeObjectMetadata(
	"amdgpu-verify-comd",
	cl::desc("Verify AMDGPU Code Object Metadata"));

	namespace AMDGPU {
	namespace CodeObject {

	void MetadataStreamer::dump(StringRef YamlString) const {
	errs() << "AMDGPU Code Object Metadata:\n" << YamlString << '\n';
	}

	void MetadataStreamer::verify(StringRef YamlString) const {
	errs() << "AMDGPU Code Object Metadata Parser Test: ";

	CodeObject::Metadata FromYamlString;
	if (Metadata::fromYamlString(YamlString, FromYamlString)) {
	errs() << "FAIL\n";
	return;
	}

	std::string ToYamlString;
	if (Metadata::toYamlString(FromYamlString, ToYamlString)) {
	errs() << "FAIL\n";
	return;
	}

	errs() << (YamlString == ToYamlString ? "PASS" : "FAIL") << '\n';
	if (YamlString != ToYamlString) {
	errs() << "Original input: " << YamlString << '\n'
	<< "Produced output: " << ToYamlString << '\n';
	}
	}

	AccessQualifier MetadataStreamer::getAccessQualifier(StringRef AccQual) const {
	if (AccQual.empty())
	return AccessQualifier::Unknown;

	return StringSwitch<AccessQualifier>(AccQual)
	.Case("read_only", AccessQualifier::ReadOnly)
	.Case("write_only", AccessQualifier::WriteOnly)
	.Case("read_write", AccessQualifier::ReadWrite)
	.Default(AccessQualifier::Default);
	}

	AddressSpaceQualifier MetadataStreamer::getAddressSpaceQualifer(
	unsigned AddressSpace) const {
	if (AddressSpace == AMDGPUASI.PRIVATE_ADDRESS)
	return AddressSpaceQualifier::Private;
	if (AddressSpace == AMDGPUASI.GLOBAL_ADDRESS)
	return AddressSpaceQualifier::Global;
	if (AddressSpace == AMDGPUASI.CONSTANT_ADDRESS)
	return AddressSpaceQualifier::Constant;
	if (AddressSpace == AMDGPUASI.LOCAL_ADDRESS)
	return AddressSpaceQualifier::Local;
	if (AddressSpace == AMDGPUASI.FLAT_ADDRESS)
	return AddressSpaceQualifier::Generic;
	if (AddressSpace == AMDGPUASI.REGION_ADDRESS)
	return AddressSpaceQualifier::Region;

	llvm_unreachable("Unknown address space qualifier");
	}

	ValueKind MetadataStreamer::getValueKind(Type *Ty, StringRef TypeQual,
	StringRef BaseTypeName) const {
	if (TypeQual.find("pipe") != StringRef::npos)
	return ValueKind::Pipe;

	return StringSwitch<ValueKind>(BaseTypeName)
	.Case("image1d_t", ValueKind::Image)
	.Case("image1d_array_t", ValueKind::Image)
	.Case("image1d_buffer_t", ValueKind::Image)
	.Case("image2d_t", ValueKind::Image)
	.Case("image2d_array_t", ValueKind::Image)
	.Case("image2d_array_depth_t", ValueKind::Image)
	.Case("image2d_array_msaa_t", ValueKind::Image)
	.Case("image2d_array_msaa_depth_t", ValueKind::Image)
	.Case("image2d_depth_t", ValueKind::Image)
	.Case("image2d_msaa_t", ValueKind::Image)
	.Case("image2d_msaa_depth_t", ValueKind::Image)
	.Case("image3d_t", ValueKind::Image)
	.Case("sampler_t", ValueKind::Sampler)
	.Case("queue_t", ValueKind::Queue)
	.Default(isa<PointerType>(Ty) ?
	(Ty->getPointerAddressSpace() ==
	AMDGPUASI.LOCAL_ADDRESS ?
	ValueKind::DynamicSharedPointer :
	ValueKind::GlobalBuffer) :
	ValueKind::ByValue);
	}

	ValueType MetadataStreamer::getValueType(Type *Ty, StringRef TypeName) const {
	switch (Ty->getTypeID()) {
	case Type::IntegerTyID: {
	auto Signed = !TypeName.startswith("u");
	switch (Ty->getIntegerBitWidth()) {
	case 8:
	return Signed ? ValueType::I8 : ValueType::U8;
	case 16:
	return Signed ? ValueType::I16 : ValueType::U16;
	case 32:
	return Signed ? ValueType::I32 : ValueType::U32;
	case 64:
	return Signed ? ValueType::I64 : ValueType::U64;
	default:
	return ValueType::Struct;
	}
	}
	case Type::HalfTyID:
	return ValueType::F16;
	case Type::FloatTyID:
	return ValueType::F32;
	case Type::DoubleTyID:
	return ValueType::F64;
	case Type::PointerTyID:
	return getValueType(Ty->getPointerElementType(), TypeName);
	case Type::VectorTyID:
	return getValueType(Ty->getVectorElementType(), TypeName);
	default:
	return ValueType::Struct;
	}
	}

	std::string MetadataStreamer::getTypeName(Type *Ty, bool Signed) const {
	switch (Ty->getTypeID()) {
	case Type::IntegerTyID: {
	if (!Signed)
	return (Twine('u') + getTypeName(Ty, true)).str();

	auto BitWidth = Ty->getIntegerBitWidth();
	switch (BitWidth) {
	case 8:
	return "char";
	case 16:
	return "short";
	case 32:
	return "int";
	case 64:
	return "long";
	default:
	return (Twine('i') + Twine(BitWidth)).str();
	}
	}
	case Type::HalfTyID:
	return "half";
	case Type::FloatTyID:
	return "float";
	case Type::DoubleTyID:
	return "double";
	case Type::VectorTyID: {
	auto VecTy = cast<VectorType>(Ty);
	auto ElTy = VecTy->getElementType();
	auto NumElements = VecTy->getVectorNumElements();
	return (Twine(getTypeName(ElTy, Signed)) + Twine(NumElements)).str();
	}
	default:
	return "unknown";
	}
	}

	std::vector<uint32_t> MetadataStreamer::getWorkGroupDimensions(
	MDNode *Node) const {
	std::vector<uint32_t> Dims;
	if (Node->getNumOperands() != 3)
	return Dims;

	for (auto &Op : Node->operands())
	Dims.push_back(mdconst::extract<ConstantInt>(Op)->getZExtValue());
	return Dims;
	}

	void MetadataStreamer::emitVersion() {
	auto &Version = CodeObjectMetadata.mVersion;

	Version.push_back(MetadataVersionMajor);
	Version.push_back(MetadataVersionMinor);
	}

	void MetadataStreamer::emitPrintf(const Module &Mod) {
	auto &Printf = CodeObjectMetadata.mPrintf;

	auto Node = Mod.getNamedMetadata("llvm.printf.fmts");
	if (!Node)
	return;

	for (auto Op : Node->operands())
	if (Op->getNumOperands())
	Printf.push_back(cast<MDString>(Op->getOperand(0))->getString());
	}

	void MetadataStreamer::emitKernelLanguage(const Function &Func) {
	auto &Kernel = CodeObjectMetadata.mKernels.back();

	// TODO: What about other languages?
	auto Node = Func.getParent()->getNamedMetadata("opencl.ocl.version");
	if (!Node \|\| !Node->getNumOperands())
	return;
	auto Op0 = Node->getOperand(0);
	if (Op0->getNumOperands() <= 1)
	return;

	Kernel.mLanguage = "OpenCL C";
	Kernel.mLanguageVersion.push_back(
	mdconst::extract<ConstantInt>(Op0->getOperand(0))->getZExtValue());
	Kernel.mLanguageVersion.push_back(
	mdconst::extract<ConstantInt>(Op0->getOperand(1))->getZExtValue());
	}

	void MetadataStreamer::emitKernelAttrs(const Function &Func) {
	auto &Attrs = CodeObjectMetadata.mKernels.back().mAttrs;

	if (auto Node = Func.getMetadata("reqd_work_group_size"))
	Attrs.mReqdWorkGroupSize = getWorkGroupDimensions(Node);
	if (auto Node = Func.getMetadata("work_group_size_hint"))
	Attrs.mWorkGroupSizeHint = getWorkGroupDimensions(Node);
	if (auto Node = Func.getMetadata("vec_type_hint")) {
	Attrs.mVecTypeHint = getTypeName(
	cast<ValueAsMetadata>(Node->getOperand(0))->getType(),
	mdconst::extract<ConstantInt>(Node->getOperand(1))->getZExtValue());
	}
	if (Func.hasFnAttribute("runtime-handle")) {
	Attrs.mRuntimeHandle =
	Func.getFnAttribute("runtime-handle").getValueAsString().str();
	}
	}

	void MetadataStreamer::emitKernelArgs(const Function &Func) {
	for (auto &Arg : Func.args())
	emitKernelArg(Arg);

	// TODO: What about other languages?
	if (!Func.getParent()->getNamedMetadata("opencl.ocl.version"))
	return;

	auto &DL = Func.getParent()->getDataLayout();
	auto Int64Ty = Type::getInt64Ty(Func.getContext());

	emitKernelArg(DL, Int64Ty, ValueKind::HiddenGlobalOffsetX);
	emitKernelArg(DL, Int64Ty, ValueKind::HiddenGlobalOffsetY);
	emitKernelArg(DL, Int64Ty, ValueKind::HiddenGlobalOffsetZ);

	if (!Func.getParent()->getNamedMetadata("llvm.printf.fmts"))
	return;

	auto Int8PtrTy = Type::getInt8PtrTy(Func.getContext(),
	AMDGPUASI.GLOBAL_ADDRESS);
	emitKernelArg(DL, Int8PtrTy, ValueKind::HiddenPrintfBuffer);
	}

	void MetadataStreamer::emitKernelArg(const Argument &Arg) {
	auto Func = Arg.getParent();
	auto ArgNo = Arg.getArgNo();
	const MDNode *Node;

	StringRef TypeQual;
	Node = Func->getMetadata("kernel_arg_type_qual");
	if (Node && ArgNo < Node->getNumOperands())
	TypeQual = cast<MDString>(Node->getOperand(ArgNo))->getString();

	StringRef BaseTypeName;
	Node = Func->getMetadata("kernel_arg_base_type");
	if (Node && ArgNo < Node->getNumOperands())
	BaseTypeName = cast<MDString>(Node->getOperand(ArgNo))->getString();

	StringRef AccQual;
	if (Arg.getType()->isPointerTy() && Arg.onlyReadsMemory() &&
	Arg.hasNoAliasAttr()) {
	AccQual = "read_only";
	} else {
	Node = Func->getMetadata("kernel_arg_access_qual");
	if (Node && ArgNo < Node->getNumOperands())
	AccQual = cast<MDString>(Node->getOperand(ArgNo))->getString();
	}

	StringRef Name;
	Node = Func->getMetadata("kernel_arg_name");
	if (Node && ArgNo < Node->getNumOperands())
	Name = cast<MDString>(Node->getOperand(ArgNo))->getString();

	StringRef TypeName;
	Node = Func->getMetadata("kernel_arg_type");
	if (Node && ArgNo < Node->getNumOperands())
	TypeName = cast<MDString>(Node->getOperand(ArgNo))->getString();

	emitKernelArg(Func->getParent()->getDataLayout(), Arg.getType(),
	getValueKind(Arg.getType(), TypeQual, BaseTypeName), TypeQual,
	BaseTypeName, AccQual, Name, TypeName);
	}

	void MetadataStreamer::emitKernelArg(const DataLayout &DL, Type *Ty,
	ValueKind ValueKind, StringRef TypeQual,
	StringRef BaseTypeName, StringRef AccQual,
	StringRef Name, StringRef TypeName) {
	CodeObjectMetadata.mKernels.back().mArgs.push_back(Kernel::Arg::Metadata());
	auto &Arg = CodeObjectMetadata.mKernels.back().mArgs.back();

	Arg.mSize = DL.getTypeAllocSize(Ty);
	Arg.mAlign = DL.getABITypeAlignment(Ty);
	Arg.mValueKind = ValueKind;
	Arg.mValueType = getValueType(Ty, BaseTypeName);

	if (auto PtrTy = dyn_cast<PointerType>(Ty)) {
	auto ElTy = PtrTy->getElementType();
	if (PtrTy->getAddressSpace() == AMDGPUASI.LOCAL_ADDRESS && ElTy->isSized())
	Arg.mPointeeAlign = DL.getABITypeAlignment(ElTy);
	}

	Arg.mAccQual = getAccessQualifier(AccQual);

	if (auto PtrTy = dyn_cast<PointerType>(Ty))
	Arg.mAddrSpaceQual = getAddressSpaceQualifer(PtrTy->getAddressSpace());

	SmallVector<StringRef, 1> SplitTypeQuals;
	TypeQual.split(SplitTypeQuals, " ", -1, false);
	for (StringRef Key : SplitTypeQuals) {
	auto P = StringSwitch<bool*>(Key)
	.Case("const", &Arg.mIsConst)
	.Case("pipe", &Arg.mIsPipe)
	.Case("restrict", &Arg.mIsRestrict)
	.Case("volatile", &Arg.mIsVolatile)
	.Default(nullptr);
	if (P)
	*P = true;
	}

	Arg.mName = Name;
	Arg.mTypeName = TypeName;
	}

	void MetadataStreamer::emitKernelCodeProps(
	const amd_kernel_code_t &KernelCode) {
	auto &CodeProps = CodeObjectMetadata.mKernels.back().mCodeProps;

	CodeProps.mKernargSegmentSize = KernelCode.kernarg_segment_byte_size;
	CodeProps.mWorkgroupGroupSegmentSize =
	KernelCode.workgroup_group_segment_byte_size;
	CodeProps.mWorkitemPrivateSegmentSize =
	KernelCode.workitem_private_segment_byte_size;
	CodeProps.mWavefrontNumSGPRs = KernelCode.wavefront_sgpr_count;
	CodeProps.mWorkitemNumVGPRs = KernelCode.workitem_vgpr_count;
	CodeProps.mKernargSegmentAlign = KernelCode.kernarg_segment_alignment;
	CodeProps.mGroupSegmentAlign = KernelCode.group_segment_alignment;
	CodeProps.mPrivateSegmentAlign = KernelCode.private_segment_alignment;
	CodeProps.mWavefrontSize = KernelCode.wavefront_size;
	}

	void MetadataStreamer::emitKernelDebugProps(
	const amd_kernel_code_t &KernelCode) {
	if (!(KernelCode.code_properties & AMD_CODE_PROPERTY_IS_DEBUG_SUPPORTED))
	return;

	auto &DebugProps = CodeObjectMetadata.mKernels.back().mDebugProps;

	// FIXME: Need to pass down debugger ABI version through features. This is ok
	// for now because we only have one version.
	DebugProps.mDebuggerABIVersion.push_back(1);
	DebugProps.mDebuggerABIVersion.push_back(0);
	DebugProps.mReservedNumVGPRs = KernelCode.reserved_vgpr_count;
	DebugProps.mReservedFirstVGPR = KernelCode.reserved_vgpr_first;
	DebugProps.mPrivateSegmentBufferSGPR =
	KernelCode.debug_private_segment_buffer_sgpr;
	DebugProps.mWavefrontPrivateSegmentOffsetSGPR =
	KernelCode.debug_wavefront_private_segment_offset_sgpr;
	}

	void MetadataStreamer::begin(const Module &Mod) {
	AMDGPUASI = getAMDGPUAS(Mod);
	emitVersion();
	emitPrintf(Mod);
	}

	void MetadataStreamer::emitKernel(const Function &Func,
	const amd_kernel_code_t &KernelCode) {
	if (Func.getCallingConv() != CallingConv::AMDGPU_KERNEL)
	return;

	CodeObjectMetadata.mKernels.push_back(Kernel::Metadata());
	auto &Kernel = CodeObjectMetadata.mKernels.back();

	Kernel.mName = Func.getName();
	emitKernelLanguage(Func);
	emitKernelAttrs(Func);
	emitKernelArgs(Func);
	emitKernelCodeProps(KernelCode);
	emitKernelDebugProps(KernelCode);
	}

	ErrorOr<std::string> MetadataStreamer::toYamlString() {
	std::string YamlString;
	if (auto Error = Metadata::toYamlString(CodeObjectMetadata, YamlString))
	return Error;

	if (DumpCodeObjectMetadata)
	dump(YamlString);
	if (VerifyCodeObjectMetadata)
	verify(YamlString);

	return YamlString;
	}

	ErrorOr<std::string> MetadataStreamer::toYamlString(StringRef YamlString) {
	if (auto Error = Metadata::fromYamlString(YamlString, CodeObjectMetadata))
	return Error;

	return toYamlString();
	}

	} // end namespace CodeObject
	} // end namespace AMDGPU
	} // end namespace llvm