Implements metadata generation of a Root Signature from its in-memory representation. It follows the same style as: https://github.com/llvm/llvm-project/pull/139633. This pr handles `StaticSamplers`. It also handles converting the else-if chain into a `std::visit` to allow for future compiler warnings when adding additional `RootElement` variants. The metadata follows the format described [here](https://github.com/llvm/wg-hlsl/blob/main/proposals/0002-root-signature-in-clang.md#metadata-schema). - Implement `BuildStaticSampler` into HLSLRootSignature.h - Add sample testcases demonstrating functionality Note: there is no validation of metadata nodes as the `llvm::hlsl::rootsig::RootElement` that generates it will have already been validated. Resolves https://github.com/llvm/llvm-project/issues/126586
329 lines
10 KiB
C++
329 lines
10 KiB
C++
//===- HLSLRootSignatureUtils.cpp - HLSL Root Signature helpers -----------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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///
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/// \file This file contains helpers for working with HLSL Root Signatures.
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///
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//===----------------------------------------------------------------------===//
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#include "llvm/Frontend/HLSL/HLSLRootSignatureUtils.h"
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#include "llvm/ADT/SmallString.h"
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#include "llvm/ADT/bit.h"
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#include "llvm/IR/IRBuilder.h"
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#include "llvm/IR/Metadata.h"
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namespace llvm {
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namespace hlsl {
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namespace rootsig {
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static raw_ostream &operator<<(raw_ostream &OS, const Register &Reg) {
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switch (Reg.ViewType) {
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case RegisterType::BReg:
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OS << "b";
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break;
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case RegisterType::TReg:
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OS << "t";
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break;
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case RegisterType::UReg:
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OS << "u";
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break;
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case RegisterType::SReg:
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OS << "s";
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break;
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}
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OS << Reg.Number;
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return OS;
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}
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static raw_ostream &operator<<(raw_ostream &OS,
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const ShaderVisibility &Visibility) {
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switch (Visibility) {
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case ShaderVisibility::All:
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OS << "All";
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break;
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case ShaderVisibility::Vertex:
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OS << "Vertex";
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break;
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case ShaderVisibility::Hull:
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OS << "Hull";
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break;
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case ShaderVisibility::Domain:
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OS << "Domain";
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break;
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case ShaderVisibility::Geometry:
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OS << "Geometry";
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break;
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case ShaderVisibility::Pixel:
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OS << "Pixel";
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break;
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case ShaderVisibility::Amplification:
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OS << "Amplification";
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break;
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case ShaderVisibility::Mesh:
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OS << "Mesh";
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break;
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}
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return OS;
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}
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static raw_ostream &operator<<(raw_ostream &OS, const ClauseType &Type) {
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switch (Type) {
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case ClauseType::CBuffer:
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OS << "CBV";
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break;
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case ClauseType::SRV:
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OS << "SRV";
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break;
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case ClauseType::UAV:
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OS << "UAV";
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break;
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case ClauseType::Sampler:
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OS << "Sampler";
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break;
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}
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return OS;
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}
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static raw_ostream &operator<<(raw_ostream &OS,
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const DescriptorRangeFlags &Flags) {
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bool FlagSet = false;
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unsigned Remaining = llvm::to_underlying(Flags);
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while (Remaining) {
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unsigned Bit = 1u << llvm::countr_zero(Remaining);
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if (Remaining & Bit) {
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if (FlagSet)
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OS << " | ";
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switch (static_cast<DescriptorRangeFlags>(Bit)) {
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case DescriptorRangeFlags::DescriptorsVolatile:
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OS << "DescriptorsVolatile";
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break;
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case DescriptorRangeFlags::DataVolatile:
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OS << "DataVolatile";
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break;
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case DescriptorRangeFlags::DataStaticWhileSetAtExecute:
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OS << "DataStaticWhileSetAtExecute";
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break;
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case DescriptorRangeFlags::DataStatic:
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OS << "DataStatic";
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break;
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case DescriptorRangeFlags::DescriptorsStaticKeepingBufferBoundsChecks:
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OS << "DescriptorsStaticKeepingBufferBoundsChecks";
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break;
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default:
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OS << "invalid: " << Bit;
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break;
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}
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FlagSet = true;
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}
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Remaining &= ~Bit;
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}
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if (!FlagSet)
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OS << "None";
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return OS;
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}
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raw_ostream &operator<<(raw_ostream &OS, const DescriptorTable &Table) {
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OS << "DescriptorTable(numClauses = " << Table.NumClauses
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<< ", visibility = " << Table.Visibility << ")";
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return OS;
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}
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raw_ostream &operator<<(raw_ostream &OS, const DescriptorTableClause &Clause) {
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OS << Clause.Type << "(" << Clause.Reg
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<< ", numDescriptors = " << Clause.NumDescriptors
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<< ", space = " << Clause.Space << ", offset = ";
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if (Clause.Offset == DescriptorTableOffsetAppend)
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OS << "DescriptorTableOffsetAppend";
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else
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OS << Clause.Offset;
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OS << ", flags = " << Clause.Flags << ")";
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return OS;
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}
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void dumpRootElements(raw_ostream &OS, ArrayRef<RootElement> Elements) {
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OS << "RootElements{";
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bool First = true;
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for (const RootElement &Element : Elements) {
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if (!First)
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OS << ",";
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OS << " ";
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if (const auto &Clause = std::get_if<DescriptorTableClause>(&Element))
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OS << *Clause;
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if (const auto &Table = std::get_if<DescriptorTable>(&Element))
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OS << *Table;
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First = false;
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}
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OS << "}";
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}
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namespace {
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// We use the OverloadBuild with std::visit to ensure the compiler catches if a
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// new RootElement variant type is added but it's metadata generation isn't
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// handled.
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template <class... Ts> struct OverloadedBuild : Ts... {
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using Ts::operator()...;
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};
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template <class... Ts> OverloadedBuild(Ts...) -> OverloadedBuild<Ts...>;
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} // namespace
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MDNode *MetadataBuilder::BuildRootSignature() {
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const auto Visitor = OverloadedBuild{
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[this](const RootFlags &Flags) -> MDNode * {
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return BuildRootFlags(Flags);
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},
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[this](const RootConstants &Constants) -> MDNode * {
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return BuildRootConstants(Constants);
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},
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[this](const RootDescriptor &Descriptor) -> MDNode * {
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return BuildRootDescriptor(Descriptor);
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},
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[this](const DescriptorTableClause &Clause) -> MDNode * {
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return BuildDescriptorTableClause(Clause);
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},
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[this](const DescriptorTable &Table) -> MDNode * {
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return BuildDescriptorTable(Table);
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},
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[this](const StaticSampler &Sampler) -> MDNode * {
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return BuildStaticSampler(Sampler);
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},
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};
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for (const RootElement &Element : Elements) {
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MDNode *ElementMD = std::visit(Visitor, Element);
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assert(ElementMD != nullptr &&
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"Root Element must be initialized and validated");
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GeneratedMetadata.push_back(ElementMD);
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}
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return MDNode::get(Ctx, GeneratedMetadata);
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}
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MDNode *MetadataBuilder::BuildRootFlags(const RootFlags &Flags) {
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IRBuilder<> Builder(Ctx);
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Metadata *Operands[] = {
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MDString::get(Ctx, "RootFlags"),
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ConstantAsMetadata::get(Builder.getInt32(llvm::to_underlying(Flags))),
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};
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return MDNode::get(Ctx, Operands);
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}
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MDNode *MetadataBuilder::BuildRootConstants(const RootConstants &Constants) {
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IRBuilder<> Builder(Ctx);
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Metadata *Operands[] = {
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MDString::get(Ctx, "RootConstants"),
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ConstantAsMetadata::get(
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Builder.getInt32(llvm::to_underlying(Constants.Visibility))),
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ConstantAsMetadata::get(Builder.getInt32(Constants.Reg.Number)),
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ConstantAsMetadata::get(Builder.getInt32(Constants.Space)),
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ConstantAsMetadata::get(Builder.getInt32(Constants.Num32BitConstants)),
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};
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return MDNode::get(Ctx, Operands);
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}
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MDNode *MetadataBuilder::BuildRootDescriptor(const RootDescriptor &Descriptor) {
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IRBuilder<> Builder(Ctx);
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llvm::SmallString<7> Name;
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llvm::raw_svector_ostream OS(Name);
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OS << "Root" << ClauseType(llvm::to_underlying(Descriptor.Type));
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Metadata *Operands[] = {
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MDString::get(Ctx, OS.str()),
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ConstantAsMetadata::get(
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Builder.getInt32(llvm::to_underlying(Descriptor.Visibility))),
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ConstantAsMetadata::get(Builder.getInt32(Descriptor.Reg.Number)),
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ConstantAsMetadata::get(Builder.getInt32(Descriptor.Space)),
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ConstantAsMetadata::get(
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Builder.getInt32(llvm::to_underlying(Descriptor.Flags))),
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};
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return MDNode::get(Ctx, Operands);
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}
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MDNode *MetadataBuilder::BuildDescriptorTable(const DescriptorTable &Table) {
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IRBuilder<> Builder(Ctx);
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SmallVector<Metadata *> TableOperands;
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// Set the mandatory arguments
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TableOperands.push_back(MDString::get(Ctx, "DescriptorTable"));
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TableOperands.push_back(ConstantAsMetadata::get(
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Builder.getInt32(llvm::to_underlying(Table.Visibility))));
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// Remaining operands are references to the table's clauses. The in-memory
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// representation of the Root Elements created from parsing will ensure that
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// the previous N elements are the clauses for this table.
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assert(Table.NumClauses <= GeneratedMetadata.size() &&
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"Table expected all owned clauses to be generated already");
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// So, add a refence to each clause to our operands
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TableOperands.append(GeneratedMetadata.end() - Table.NumClauses,
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GeneratedMetadata.end());
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// Then, remove those clauses from the general list of Root Elements
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GeneratedMetadata.pop_back_n(Table.NumClauses);
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return MDNode::get(Ctx, TableOperands);
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}
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MDNode *MetadataBuilder::BuildDescriptorTableClause(
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const DescriptorTableClause &Clause) {
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IRBuilder<> Builder(Ctx);
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std::string Name;
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llvm::raw_string_ostream OS(Name);
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OS << Clause.Type;
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return MDNode::get(
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Ctx, {
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MDString::get(Ctx, OS.str()),
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ConstantAsMetadata::get(Builder.getInt32(Clause.NumDescriptors)),
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ConstantAsMetadata::get(Builder.getInt32(Clause.Reg.Number)),
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ConstantAsMetadata::get(Builder.getInt32(Clause.Space)),
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ConstantAsMetadata::get(Builder.getInt32(Clause.Offset)),
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ConstantAsMetadata::get(
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Builder.getInt32(llvm::to_underlying(Clause.Flags))),
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});
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}
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MDNode *MetadataBuilder::BuildStaticSampler(const StaticSampler &Sampler) {
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IRBuilder<> Builder(Ctx);
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Metadata *Operands[] = {
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MDString::get(Ctx, "StaticSampler"),
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ConstantAsMetadata::get(
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Builder.getInt32(llvm::to_underlying(Sampler.Filter))),
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ConstantAsMetadata::get(
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Builder.getInt32(llvm::to_underlying(Sampler.AddressU))),
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ConstantAsMetadata::get(
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Builder.getInt32(llvm::to_underlying(Sampler.AddressV))),
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ConstantAsMetadata::get(
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Builder.getInt32(llvm::to_underlying(Sampler.AddressW))),
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ConstantAsMetadata::get(llvm::ConstantFP::get(llvm::Type::getFloatTy(Ctx),
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Sampler.MipLODBias)),
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ConstantAsMetadata::get(Builder.getInt32(Sampler.MaxAnisotropy)),
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ConstantAsMetadata::get(
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Builder.getInt32(llvm::to_underlying(Sampler.CompFunc))),
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ConstantAsMetadata::get(
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Builder.getInt32(llvm::to_underlying(Sampler.BorderColor))),
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ConstantAsMetadata::get(
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llvm::ConstantFP::get(llvm::Type::getFloatTy(Ctx), Sampler.MinLOD)),
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ConstantAsMetadata::get(
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llvm::ConstantFP::get(llvm::Type::getFloatTy(Ctx), Sampler.MaxLOD)),
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ConstantAsMetadata::get(Builder.getInt32(Sampler.Reg.Number)),
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ConstantAsMetadata::get(Builder.getInt32(Sampler.Space)),
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ConstantAsMetadata::get(
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Builder.getInt32(llvm::to_underlying(Sampler.Visibility))),
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};
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return MDNode::get(Ctx, Operands);
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}
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} // namespace rootsig
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} // namespace hlsl
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} // namespace llvm
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