YAMLSerialization.cpp
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//===-- YAMLSerialization.cpp ------------------------------------*- C++-*-===//
//
// 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
//
//===----------------------------------------------------------------------===//
//
// A YAML index file is a sequence of tagged entries.
// Each entry either encodes a Symbol or the list of references to a symbol
// (a "ref bundle").
//
//===----------------------------------------------------------------------===//
#include "Index.h"
#include "Relation.h"
#include "Serialization.h"
#include "SymbolLocation.h"
#include "SymbolOrigin.h"
#include "dex/Dex.h"
#include "support/Trace.h"
#include "llvm/ADT/Optional.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/Support/Allocator.h"
#include "llvm/Support/Errc.h"
#include "llvm/Support/MemoryBuffer.h"
#include "llvm/Support/StringSaver.h"
#include "llvm/Support/YAMLTraits.h"
#include "llvm/Support/raw_ostream.h"
#include <cstdint>
LLVM_YAML_IS_SEQUENCE_VECTOR(clang::clangd::Symbol::IncludeHeaderWithReferences)
LLVM_YAML_IS_SEQUENCE_VECTOR(clang::clangd::Ref)
namespace {
using RefBundle =
std::pair<clang::clangd::SymbolID, std::vector<clang::clangd::Ref>>;
// This is a pale imitation of std::variant<Symbol, RefBundle, Relation>
struct VariantEntry {
llvm::Optional<clang::clangd::Symbol> Symbol;
llvm::Optional<RefBundle> Refs;
llvm::Optional<clang::clangd::Relation> Relation;
llvm::Optional<clang::clangd::IncludeGraphNode> Source;
llvm::Optional<clang::tooling::CompileCommand> Cmd;
};
// A class helps YAML to serialize the 32-bit encoded position (Line&Column),
// as YAMLIO can't directly map bitfields.
struct YPosition {
uint32_t Line;
uint32_t Column;
};
// avoid ODR violation of specialization for non-owned CompileCommand
struct CompileCommandYAML : clang::tooling::CompileCommand {};
} // namespace
namespace llvm {
namespace yaml {
using clang::clangd::FileDigest;
using clang::clangd::IncludeGraph;
using clang::clangd::IncludeGraphNode;
using clang::clangd::Ref;
using clang::clangd::RefKind;
using clang::clangd::Relation;
using clang::clangd::RelationKind;
using clang::clangd::Symbol;
using clang::clangd::SymbolID;
using clang::clangd::SymbolLocation;
using clang::clangd::SymbolOrigin;
using clang::index::SymbolInfo;
using clang::index::SymbolKind;
using clang::index::SymbolLanguage;
using clang::index::SymbolRole;
using clang::tooling::CompileCommand;
// Helper to (de)serialize the SymbolID. We serialize it as a hex string.
struct NormalizedSymbolID {
NormalizedSymbolID(IO &) {}
NormalizedSymbolID(IO &, const SymbolID &ID) {
llvm::raw_string_ostream OS(HexString);
OS << ID;
}
SymbolID denormalize(IO &I) {
auto ID = SymbolID::fromStr(HexString);
if (!ID) {
I.setError(llvm::toString(ID.takeError()));
return SymbolID();
}
return *ID;
}
std::string HexString;
};
struct NormalizedSymbolFlag {
NormalizedSymbolFlag(IO &) {}
NormalizedSymbolFlag(IO &, Symbol::SymbolFlag F) {
Flag = static_cast<uint8_t>(F);
}
Symbol::SymbolFlag denormalize(IO &) {
return static_cast<Symbol::SymbolFlag>(Flag);
}
uint8_t Flag = 0;
};
struct NormalizedSymbolOrigin {
NormalizedSymbolOrigin(IO &) {}
NormalizedSymbolOrigin(IO &, SymbolOrigin O) {
Origin = static_cast<uint8_t>(O);
}
SymbolOrigin denormalize(IO &) { return static_cast<SymbolOrigin>(Origin); }
uint8_t Origin = 0;
};
template <> struct MappingTraits<YPosition> {
static void mapping(IO &IO, YPosition &Value) {
IO.mapRequired("Line", Value.Line);
IO.mapRequired("Column", Value.Column);
}
};
struct NormalizedPosition {
using Position = clang::clangd::SymbolLocation::Position;
NormalizedPosition(IO &) {}
NormalizedPosition(IO &, const Position &Pos) {
P.Line = Pos.line();
P.Column = Pos.column();
}
Position denormalize(IO &) {
Position Pos;
Pos.setLine(P.Line);
Pos.setColumn(P.Column);
return Pos;
}
YPosition P;
};
struct NormalizedFileURI {
NormalizedFileURI(IO &) {}
NormalizedFileURI(IO &, const char *FileURI) { URI = FileURI; }
const char *denormalize(IO &IO) {
assert(IO.getContext() &&
"Expecting an UniqueStringSaver to allocate data");
return static_cast<llvm::UniqueStringSaver *>(IO.getContext())
->save(URI)
.data();
}
std::string URI;
};
template <> struct MappingTraits<SymbolLocation> {
static void mapping(IO &IO, SymbolLocation &Value) {
MappingNormalization<NormalizedFileURI, const char *> NFile(IO,
Value.FileURI);
IO.mapRequired("FileURI", NFile->URI);
MappingNormalization<NormalizedPosition, SymbolLocation::Position> NStart(
IO, Value.Start);
IO.mapRequired("Start", NStart->P);
MappingNormalization<NormalizedPosition, SymbolLocation::Position> NEnd(
IO, Value.End);
IO.mapRequired("End", NEnd->P);
}
};
template <> struct MappingTraits<SymbolInfo> {
static void mapping(IO &io, SymbolInfo &SymInfo) {
// FIXME: expose other fields?
io.mapRequired("Kind", SymInfo.Kind);
io.mapRequired("Lang", SymInfo.Lang);
}
};
template <>
struct MappingTraits<clang::clangd::Symbol::IncludeHeaderWithReferences> {
static void mapping(IO &io,
clang::clangd::Symbol::IncludeHeaderWithReferences &Inc) {
io.mapRequired("Header", Inc.IncludeHeader);
io.mapRequired("References", Inc.References);
}
};
template <> struct MappingTraits<Symbol> {
static void mapping(IO &IO, Symbol &Sym) {
MappingNormalization<NormalizedSymbolID, SymbolID> NSymbolID(IO, Sym.ID);
MappingNormalization<NormalizedSymbolFlag, Symbol::SymbolFlag> NSymbolFlag(
IO, Sym.Flags);
MappingNormalization<NormalizedSymbolOrigin, SymbolOrigin> NSymbolOrigin(
IO, Sym.Origin);
IO.mapRequired("ID", NSymbolID->HexString);
IO.mapRequired("Name", Sym.Name);
IO.mapRequired("Scope", Sym.Scope);
IO.mapRequired("SymInfo", Sym.SymInfo);
IO.mapOptional("CanonicalDeclaration", Sym.CanonicalDeclaration,
SymbolLocation());
IO.mapOptional("Definition", Sym.Definition, SymbolLocation());
IO.mapOptional("References", Sym.References, 0u);
IO.mapOptional("Origin", NSymbolOrigin->Origin);
IO.mapOptional("Flags", NSymbolFlag->Flag);
IO.mapOptional("Signature", Sym.Signature);
IO.mapOptional("TemplateSpecializationArgs",
Sym.TemplateSpecializationArgs);
IO.mapOptional("CompletionSnippetSuffix", Sym.CompletionSnippetSuffix);
IO.mapOptional("Documentation", Sym.Documentation);
IO.mapOptional("ReturnType", Sym.ReturnType);
IO.mapOptional("Type", Sym.Type);
IO.mapOptional("IncludeHeaders", Sym.IncludeHeaders);
}
};
template <> struct ScalarEnumerationTraits<SymbolLanguage> {
static void enumeration(IO &IO, SymbolLanguage &Value) {
IO.enumCase(Value, "C", SymbolLanguage::C);
IO.enumCase(Value, "Cpp", SymbolLanguage::CXX);
IO.enumCase(Value, "ObjC", SymbolLanguage::ObjC);
IO.enumCase(Value, "Swift", SymbolLanguage::Swift);
}
};
template <> struct ScalarEnumerationTraits<SymbolKind> {
static void enumeration(IO &IO, SymbolKind &Value) {
#define DEFINE_ENUM(name) IO.enumCase(Value, #name, SymbolKind::name)
DEFINE_ENUM(Unknown);
DEFINE_ENUM(Function);
DEFINE_ENUM(Module);
DEFINE_ENUM(Namespace);
DEFINE_ENUM(NamespaceAlias);
DEFINE_ENUM(Macro);
DEFINE_ENUM(Enum);
DEFINE_ENUM(Struct);
DEFINE_ENUM(Class);
DEFINE_ENUM(Protocol);
DEFINE_ENUM(Extension);
DEFINE_ENUM(Union);
DEFINE_ENUM(TypeAlias);
DEFINE_ENUM(Function);
DEFINE_ENUM(Variable);
DEFINE_ENUM(Field);
DEFINE_ENUM(EnumConstant);
DEFINE_ENUM(InstanceMethod);
DEFINE_ENUM(ClassMethod);
DEFINE_ENUM(StaticMethod);
DEFINE_ENUM(InstanceProperty);
DEFINE_ENUM(ClassProperty);
DEFINE_ENUM(StaticProperty);
DEFINE_ENUM(Constructor);
DEFINE_ENUM(Destructor);
DEFINE_ENUM(ConversionFunction);
DEFINE_ENUM(Parameter);
DEFINE_ENUM(Using);
#undef DEFINE_ENUM
}
};
template <> struct MappingTraits<RefBundle> {
static void mapping(IO &IO, RefBundle &Refs) {
MappingNormalization<NormalizedSymbolID, SymbolID> NSymbolID(IO,
Refs.first);
IO.mapRequired("ID", NSymbolID->HexString);
IO.mapRequired("References", Refs.second);
}
};
struct NormalizedRefKind {
NormalizedRefKind(IO &) {}
NormalizedRefKind(IO &, RefKind O) { Kind = static_cast<uint8_t>(O); }
RefKind denormalize(IO &) { return static_cast<RefKind>(Kind); }
uint8_t Kind = 0;
};
template <> struct MappingTraits<Ref> {
static void mapping(IO &IO, Ref &R) {
MappingNormalization<NormalizedRefKind, RefKind> NKind(IO, R.Kind);
IO.mapRequired("Kind", NKind->Kind);
IO.mapRequired("Location", R.Location);
}
};
struct NormalizedSymbolRole {
NormalizedSymbolRole(IO &) {}
NormalizedSymbolRole(IO &IO, RelationKind R) {
Kind = static_cast<uint8_t>(R);
}
RelationKind denormalize(IO &IO) { return static_cast<RelationKind>(Kind); }
uint8_t Kind = 0;
};
template <> struct MappingTraits<SymbolID> {
static void mapping(IO &IO, SymbolID &ID) {
MappingNormalization<NormalizedSymbolID, SymbolID> NSymbolID(IO, ID);
IO.mapRequired("ID", NSymbolID->HexString);
}
};
template <> struct MappingTraits<Relation> {
static void mapping(IO &IO, Relation &Relation) {
MappingNormalization<NormalizedSymbolRole, RelationKind> NRole(
IO, Relation.Predicate);
IO.mapRequired("Subject", Relation.Subject);
IO.mapRequired("Predicate", NRole->Kind);
IO.mapRequired("Object", Relation.Object);
}
};
struct NormalizedSourceFlag {
NormalizedSourceFlag(IO &) {}
NormalizedSourceFlag(IO &, IncludeGraphNode::SourceFlag O) {
Flag = static_cast<uint8_t>(O);
}
IncludeGraphNode::SourceFlag denormalize(IO &) {
return static_cast<IncludeGraphNode::SourceFlag>(Flag);
}
uint8_t Flag = 0;
};
struct NormalizedFileDigest {
NormalizedFileDigest(IO &) {}
NormalizedFileDigest(IO &, const FileDigest &Digest) {
HexString = llvm::toHex(Digest);
}
FileDigest denormalize(IO &I) {
FileDigest Digest;
if (HexString.size() == Digest.size() * 2 &&
llvm::all_of(HexString, llvm::isHexDigit)) {
memcpy(Digest.data(), llvm::fromHex(HexString).data(), Digest.size());
} else {
I.setError(std::string("Bad hex file digest: ") + HexString);
}
return Digest;
}
std::string HexString;
};
template <> struct MappingTraits<IncludeGraphNode> {
static void mapping(IO &IO, IncludeGraphNode &Node) {
IO.mapRequired("URI", Node.URI);
MappingNormalization<NormalizedSourceFlag, IncludeGraphNode::SourceFlag>
NSourceFlag(IO, Node.Flags);
IO.mapRequired("Flags", NSourceFlag->Flag);
MappingNormalization<NormalizedFileDigest, FileDigest> NDigest(IO,
Node.Digest);
IO.mapRequired("Digest", NDigest->HexString);
IO.mapRequired("DirectIncludes", Node.DirectIncludes);
}
};
template <> struct MappingTraits<CompileCommandYAML> {
static void mapping(IO &IO, CompileCommandYAML &Cmd) {
IO.mapRequired("Directory", Cmd.Directory);
IO.mapRequired("CommandLine", Cmd.CommandLine);
}
};
template <> struct MappingTraits<VariantEntry> {
static void mapping(IO &IO, VariantEntry &Variant) {
if (IO.mapTag("!Symbol", Variant.Symbol.hasValue())) {
if (!IO.outputting())
Variant.Symbol.emplace();
MappingTraits<Symbol>::mapping(IO, *Variant.Symbol);
} else if (IO.mapTag("!Refs", Variant.Refs.hasValue())) {
if (!IO.outputting())
Variant.Refs.emplace();
MappingTraits<RefBundle>::mapping(IO, *Variant.Refs);
} else if (IO.mapTag("!Relations", Variant.Relation.hasValue())) {
if (!IO.outputting())
Variant.Relation.emplace();
MappingTraits<Relation>::mapping(IO, *Variant.Relation);
} else if (IO.mapTag("!Source", Variant.Source.hasValue())) {
if (!IO.outputting())
Variant.Source.emplace();
MappingTraits<IncludeGraphNode>::mapping(IO, *Variant.Source);
} else if (IO.mapTag("!Cmd", Variant.Cmd.hasValue())) {
if (!IO.outputting())
Variant.Cmd.emplace();
MappingTraits<CompileCommandYAML>::mapping(
IO, static_cast<CompileCommandYAML &>(*Variant.Cmd));
}
}
};
} // namespace yaml
} // namespace llvm
namespace clang {
namespace clangd {
void writeYAML(const IndexFileOut &O, llvm::raw_ostream &OS) {
llvm::yaml::Output Yout(OS);
for (const auto &Sym : *O.Symbols) {
VariantEntry Entry;
Entry.Symbol = Sym;
Yout << Entry;
}
if (O.Refs)
for (auto &Sym : *O.Refs) {
VariantEntry Entry;
Entry.Refs = Sym;
Yout << Entry;
}
if (O.Relations)
for (auto &R : *O.Relations) {
VariantEntry Entry;
Entry.Relation = R;
Yout << Entry;
}
if (O.Sources) {
for (const auto &Source : *O.Sources) {
VariantEntry Entry;
Entry.Source = Source.getValue();
Yout << Entry;
}
}
if (O.Cmd) {
VariantEntry Entry;
Entry.Cmd = *O.Cmd;
Yout << Entry;
}
}
llvm::Expected<IndexFileIn> readYAML(llvm::StringRef Data) {
SymbolSlab::Builder Symbols;
RefSlab::Builder Refs;
RelationSlab::Builder Relations;
llvm::BumpPtrAllocator
Arena; // store the underlying data of Position::FileURI.
llvm::UniqueStringSaver Strings(Arena);
llvm::yaml::Input Yin(Data, &Strings);
IncludeGraph Sources;
llvm::Optional<tooling::CompileCommand> Cmd;
while (Yin.setCurrentDocument()) {
llvm::yaml::EmptyContext Ctx;
VariantEntry Variant;
yamlize(Yin, Variant, true, Ctx);
if (Yin.error())
return llvm::errorCodeToError(Yin.error());
if (Variant.Symbol)
Symbols.insert(*Variant.Symbol);
if (Variant.Refs)
for (const auto &Ref : Variant.Refs->second)
Refs.insert(Variant.Refs->first, Ref);
if (Variant.Relation)
Relations.insert(*Variant.Relation);
if (Variant.Source) {
auto &IGN = Variant.Source.getValue();
auto Entry = Sources.try_emplace(IGN.URI).first;
Entry->getValue() = std::move(IGN);
// Fixup refs to refer to map keys which will live on
Entry->getValue().URI = Entry->getKey();
for (auto &Include : Entry->getValue().DirectIncludes)
Include = Sources.try_emplace(Include).first->getKey();
}
if (Variant.Cmd)
Cmd = *Variant.Cmd;
Yin.nextDocument();
}
IndexFileIn Result;
Result.Symbols.emplace(std::move(Symbols).build());
Result.Refs.emplace(std::move(Refs).build());
Result.Relations.emplace(std::move(Relations).build());
if (Sources.size())
Result.Sources = std::move(Sources);
Result.Cmd = std::move(Cmd);
return std::move(Result);
}
std::string toYAML(const Symbol &S) {
std::string Buf;
{
llvm::raw_string_ostream OS(Buf);
llvm::yaml::Output Yout(OS);
Symbol Sym = S; // copy: Yout<< requires mutability.
Yout << Sym;
}
return Buf;
}
std::string toYAML(const std::pair<SymbolID, llvm::ArrayRef<Ref>> &Data) {
RefBundle Refs = {Data.first, Data.second};
std::string Buf;
{
llvm::raw_string_ostream OS(Buf);
llvm::yaml::Output Yout(OS);
Yout << Refs;
}
return Buf;
}
std::string toYAML(const Relation &R) {
std::string Buf;
{
llvm::raw_string_ostream OS(Buf);
llvm::yaml::Output Yout(OS);
Relation Rel = R; // copy: Yout<< requires mutability.
Yout << Rel;
}
return Buf;
}
std::string toYAML(const Ref &R) {
std::string Buf;
{
llvm::raw_string_ostream OS(Buf);
llvm::yaml::Output Yout(OS);
Ref Reference = R; // copy: Yout<< requires mutability.
Yout << Reference;
}
return Buf;
}
llvm::Expected<clangd::Symbol>
symbolFromYAML(StringRef YAML, llvm::UniqueStringSaver *Strings) {
clangd::Symbol Deserialized;
llvm::yaml::Input YAMLInput(YAML, Strings);
if (YAMLInput.error())
return llvm::make_error<llvm::StringError>(
llvm::formatv("Unable to deserialize Symbol from YAML: {0}", YAML),
llvm::inconvertibleErrorCode());
YAMLInput >> Deserialized;
return Deserialized;
}
llvm::Expected<clangd::Ref> refFromYAML(StringRef YAML,
llvm::UniqueStringSaver *Strings) {
clangd::Ref Deserialized;
llvm::yaml::Input YAMLInput(YAML, Strings);
if (YAMLInput.error())
return llvm::make_error<llvm::StringError>(
llvm::formatv("Unable to deserialize Symbol from YAML: {0}", YAML),
llvm::inconvertibleErrorCode());
YAMLInput >> Deserialized;
return Deserialized;
}
} // namespace clangd
} // namespace clang