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|
//===- DXILEmitter.cpp - DXIL operation Emitter ---------------------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
//
// DXILEmitter uses the descriptions of DXIL operation to construct enum and
// helper functions for DXIL operation.
//
//===----------------------------------------------------------------------===//
#include "SequenceToOffsetTable.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/ADT/StringSet.h"
#include "llvm/ADT/StringSwitch.h"
#include "llvm/TableGen/Error.h"
#include "llvm/TableGen/Record.h"
using namespace llvm;
namespace {
struct DXILShaderModel {
int Major;
int Minor;
};
struct DXILParam {
int Pos; // position in parameter list
StringRef Type; // llvm type name, $o for overload, $r for resource
// type, $cb for legacy cbuffer, $u4 for u4 struct
StringRef Name; // short, unique name
StringRef Doc; // the documentation description of this parameter
bool IsConst; // whether this argument requires a constant value in the IR
StringRef EnumName; // the name of the enum type if applicable
int MaxValue; // the maximum value for this parameter if applicable
DXILParam(const Record *R) {
Name = R->getValueAsString("name");
Pos = R->getValueAsInt("pos");
Type = R->getValueAsString("llvm_type");
if (R->getValue("doc"))
Doc = R->getValueAsString("doc");
IsConst = R->getValueAsBit("is_const");
EnumName = R->getValueAsString("enum_name");
MaxValue = R->getValueAsInt("max_value");
}
};
struct DXILOperationData {
StringRef Name; // short, unique name
StringRef DXILOp; // name of DXIL operation
int DXILOpID; // ID of DXIL operation
StringRef DXILClass; // name of the opcode class
StringRef Category; // classification for this instruction
StringRef Doc; // the documentation description of this instruction
SmallVector<DXILParam> Params; // the operands that this instruction takes
StringRef OverloadTypes; // overload types if applicable
StringRef FnAttr; // attribute shorthands: rn=does not access
// memory,ro=only reads from memory
StringRef Intrinsic; // The llvm intrinsic map to DXILOp. Default is "" which
// means no map exist
bool IsDeriv; // whether this is some kind of derivative
bool IsGradient; // whether this requires a gradient calculation
bool IsFeedback; // whether this is a sampler feedback op
bool IsWave; // whether this requires in-wave, cross-lane functionality
bool RequiresUniformInputs; // whether this operation requires that all
// of its inputs are uniform across the wave
SmallVector<StringRef, 4>
ShaderStages; // shader stages to which this applies, empty for all.
DXILShaderModel ShaderModel; // minimum shader model required
DXILShaderModel ShaderModelTranslated; // minimum shader model required with
// translation by linker
SmallVector<StringRef, 4> counters; // counters for this inst.
DXILOperationData(const Record *R) {
Name = R->getValueAsString("name");
DXILOp = R->getValueAsString("dxil_op");
DXILOpID = R->getValueAsInt("dxil_opid");
DXILClass = R->getValueAsDef("op_class")->getValueAsString("name");
Category = R->getValueAsDef("category")->getValueAsString("name");
if (R->getValue("llvm_intrinsic")) {
auto *IntrinsicDef = R->getValueAsDef("llvm_intrinsic");
auto DefName = IntrinsicDef->getName();
assert(DefName.startswith("int_") && "invalid intrinsic name");
// Remove the int_ from intrinsic name.
Intrinsic = DefName.substr(4);
}
Doc = R->getValueAsString("doc");
ListInit *ParamList = R->getValueAsListInit("ops");
for (unsigned i = 0; i < ParamList->size(); ++i) {
Record *Param = ParamList->getElementAsRecord(i);
Params.emplace_back(DXILParam(Param));
}
OverloadTypes = R->getValueAsString("oload_types");
FnAttr = R->getValueAsString("fn_attr");
}
};
} // end anonymous namespace
static void emitDXILOpEnum(DXILOperationData &DXILOp, raw_ostream &OS) {
// Name = ID, // Doc
OS << DXILOp.Name << " = " << DXILOp.DXILOpID << ", // " << DXILOp.Doc
<< "\n";
}
static std::string buildCategoryStr(StringSet<> &Cetegorys) {
std::string Str;
raw_string_ostream OS(Str);
for (auto &It : Cetegorys) {
OS << " " << It.getKey();
}
return OS.str();
}
// Emit enum declaration for DXIL.
static void emitDXILEnums(std::vector<DXILOperationData> &DXILOps,
raw_ostream &OS) {
// Sort by Category + OpName.
llvm::sort(DXILOps, [](DXILOperationData &A, DXILOperationData &B) {
// Group by Category first.
if (A.Category == B.Category)
// Inside same Category, order by OpName.
return A.DXILOp < B.DXILOp;
else
return A.Category < B.Category;
});
OS << "// Enumeration for operations specified by DXIL\n";
OS << "enum class OpCode : unsigned {\n";
StringMap<StringSet<>> ClassMap;
StringRef PrevCategory = "";
for (auto &DXILOp : DXILOps) {
StringRef Category = DXILOp.Category;
if (Category != PrevCategory) {
OS << "\n// " << Category << "\n";
PrevCategory = Category;
}
emitDXILOpEnum(DXILOp, OS);
auto It = ClassMap.find(DXILOp.DXILClass);
if (It != ClassMap.end()) {
It->second.insert(DXILOp.Category);
} else {
ClassMap[DXILOp.DXILClass].insert(DXILOp.Category);
}
}
OS << "\n};\n\n";
std::vector<std::pair<std::string, std::string>> ClassVec;
for (auto &It : ClassMap) {
ClassVec.emplace_back(
std::make_pair(It.getKey().str(), buildCategoryStr(It.second)));
}
// Sort by Category + ClassName.
llvm::sort(ClassVec, [](std::pair<std::string, std::string> &A,
std::pair<std::string, std::string> &B) {
StringRef ClassA = A.first;
StringRef CategoryA = A.second;
StringRef ClassB = B.first;
StringRef CategoryB = B.second;
// Group by Category first.
if (CategoryA == CategoryB)
// Inside same Category, order by ClassName.
return ClassA < ClassB;
else
return CategoryA < CategoryB;
});
OS << "// Groups for DXIL operations with equivalent function templates\n";
OS << "enum class OpCodeClass : unsigned {\n";
PrevCategory = "";
for (auto &It : ClassVec) {
StringRef Category = It.second;
if (Category != PrevCategory) {
OS << "\n// " << Category << "\n";
PrevCategory = Category;
}
StringRef Name = It.first;
OS << Name << ",\n";
}
OS << "\n};\n\n";
}
// Emit map from llvm intrinsic to DXIL operation.
static void emitDXILIntrinsicMap(std::vector<DXILOperationData> &DXILOps,
raw_ostream &OS) {
OS << "\n";
// FIXME: use array instead of SmallDenseMap.
OS << "static const SmallDenseMap<Intrinsic::ID, DXIL::OpCode> LowerMap = "
"{\n";
for (auto &DXILOp : DXILOps) {
if (DXILOp.Intrinsic.empty())
continue;
// {Intrinsic::sin, DXIL::OpCode::Sin},
OS << " { Intrinsic::" << DXILOp.Intrinsic
<< ", DXIL::OpCode::" << DXILOp.DXILOp << "},\n";
}
OS << "};\n";
OS << "\n";
}
static std::string emitDXILOperationFnAttr(StringRef FnAttr) {
return StringSwitch<std::string>(FnAttr)
.Case("rn", "Attribute::ReadNone")
.Case("ro", "Attribute::ReadOnly")
.Default("Attribute::None");
}
static std::string getOverloadKind(StringRef Overload) {
return StringSwitch<std::string>(Overload)
.Case("half", "OverloadKind::HALF")
.Case("float", "OverloadKind::FLOAT")
.Case("double", "OverloadKind::DOUBLE")
.Case("i1", "OverloadKind::I1")
.Case("i16", "OverloadKind::I16")
.Case("i32", "OverloadKind::I32")
.Case("i64", "OverloadKind::I64")
.Case("udt", "OverloadKind::UserDefineType")
.Case("obj", "OverloadKind::ObjectType")
.Default("OverloadKind::VOID");
}
static std::string getDXILOperationOverload(StringRef Overloads) {
SmallVector<StringRef> OverloadStrs;
Overloads.split(OverloadStrs, ';', /*MaxSplit*/ -1, /*KeepEmpty*/ false);
// Format is: OverloadKind::FLOAT | OverloadKind::HALF
assert(!OverloadStrs.empty() && "Invalid overloads");
auto It = OverloadStrs.begin();
std::string Result;
raw_string_ostream OS(Result);
OS << getOverloadKind(*It);
for (++It; It != OverloadStrs.end(); ++It) {
OS << " | " << getOverloadKind(*It);
}
return OS.str();
}
static std::string lowerFirstLetter(StringRef Name) {
if (Name.empty())
return "";
std::string LowerName = Name.str();
LowerName[0] = llvm::toLower(Name[0]);
return LowerName;
}
static std::string getDXILOpClassName(StringRef DXILOpClass) {
// Lower first letter expect for special case.
return StringSwitch<std::string>(DXILOpClass)
.Case("CBufferLoad", "cbufferLoad")
.Case("CBufferLoadLegacy", "cbufferLoadLegacy")
.Case("GSInstanceID", "gsInstanceID")
.Default(lowerFirstLetter(DXILOpClass));
}
static void emitDXILOperationTable(std::vector<DXILOperationData> &DXILOps,
raw_ostream &OS) {
// Sort by DXILOpID.
llvm::sort(DXILOps, [](DXILOperationData &A, DXILOperationData &B) {
return A.DXILOpID < B.DXILOpID;
});
// Collect Names.
SequenceToOffsetTable<std::string> OpClassStrings;
SequenceToOffsetTable<std::string> OpStrings;
StringSet<> ClassSet;
for (auto &DXILOp : DXILOps) {
OpStrings.add(DXILOp.DXILOp.str());
if (ClassSet.find(DXILOp.DXILClass) != ClassSet.end())
continue;
ClassSet.insert(DXILOp.DXILClass);
OpClassStrings.add(getDXILOpClassName(DXILOp.DXILClass));
}
// Layout names.
OpStrings.layout();
OpClassStrings.layout();
// Emit the DXIL operation table.
//{DXIL::OpCode::Sin, OpCodeNameIndex, OpCodeClass::Unary,
// OpCodeClassNameIndex,
// OverloadKind::FLOAT | OverloadKind::HALF, Attribute::AttrKind::ReadNone},
OS << "static const OpCodeProperty *getOpCodeProperty(DXIL::OpCode DXILOp) "
"{\n";
OS << " static const OpCodeProperty OpCodeProps[] = {\n";
for (auto &DXILOp : DXILOps) {
OS << " { DXIL::OpCode::" << DXILOp.DXILOp << ", "
<< OpStrings.get(DXILOp.DXILOp.str())
<< ", OpCodeClass::" << DXILOp.DXILClass << ", "
<< OpClassStrings.get(getDXILOpClassName(DXILOp.DXILClass)) << ", "
<< getDXILOperationOverload(DXILOp.OverloadTypes) << ", "
<< emitDXILOperationFnAttr(DXILOp.FnAttr) << " },\n";
}
OS << " };\n";
OS << " // FIXME: change search to indexing with\n";
OS << " // DXILOp once all DXIL op is added.\n";
OS << " OpCodeProperty TmpProp;\n";
OS << " TmpProp.OpCode = DXILOp;\n";
OS << " const OpCodeProperty *Prop =\n";
OS << " llvm::lower_bound(OpCodeProps, TmpProp,\n";
OS << " [](const OpCodeProperty &A, const "
"OpCodeProperty &B) {\n";
OS << " return A.OpCode < B.OpCode;\n";
OS << " });\n";
OS << " assert(Prop && \"fail to find OpCodeProperty\");\n";
OS << " return Prop;\n";
OS << "}\n\n";
// Emit the string tables.
OS << "static const char *getOpCodeName(DXIL::OpCode DXILOp) {\n\n";
OpStrings.emitStringLiteralDef(OS,
" static const char DXILOpCodeNameTable[]");
OS << " auto *Prop = getOpCodeProperty(DXILOp);\n";
OS << " unsigned Index = Prop->OpCodeNameOffset;\n";
OS << " return DXILOpCodeNameTable + Index;\n";
OS << "}\n\n";
OS << "static const char *getOpCodeClassName(const OpCodeProperty &Prop) "
"{\n\n";
OpClassStrings.emitStringLiteralDef(
OS, " static const char DXILOpCodeClassNameTable[]");
OS << " unsigned Index = Prop.OpCodeClassNameOffset;\n";
OS << " return DXILOpCodeClassNameTable + Index;\n";
OS << "}\n ";
}
namespace llvm {
void EmitDXILOperation(RecordKeeper &Records, raw_ostream &OS) {
std::vector<Record *> Ops = Records.getAllDerivedDefinitions("dxil_op");
OS << "// Generated code, do not edit.\n";
OS << "\n";
std::vector<DXILOperationData> DXILOps;
DXILOps.reserve(Ops.size());
for (auto *Record : Ops) {
DXILOps.emplace_back(DXILOperationData(Record));
}
OS << "#ifdef DXIL_OP_ENUM\n";
emitDXILEnums(DXILOps, OS);
OS << "#endif\n\n";
OS << "#ifdef DXIL_OP_INTRINSIC_MAP\n";
emitDXILIntrinsicMap(DXILOps, OS);
OS << "#endif\n\n";
OS << "#ifdef DXIL_OP_OPERATION_TABLE\n";
emitDXILOperationTable(DXILOps, OS);
OS << "#endif\n\n";
OS << "\n";
}
} // namespace llvm
|