clang-tools-extra/clangd/index/Merge.cpp - llvm-project - Git at Google

 //===--- Merge.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
 //
 //===----------------------------------------------------------------------===//

 #include "Merge.h"
 #include "index/Symbol.h"
 #include "index/SymbolLocation.h"
 #include "index/SymbolOrigin.h"
 #include "support/Logger.h"
 #include "support/Trace.h"
 #include "llvm/ADT/STLExtras.h"
 #include "llvm/ADT/StringRef.h"
 #include "llvm/ADT/StringSet.h"
 #include "llvm/Support/raw_ostream.h"
 #include <algorithm>
 #include <iterator>

 namespace clang {
 namespace clangd {

 namespace {

 // Returns true if file defining/declaring \p S is covered by \p Index.
 bool isIndexAuthoritative(const SymbolIndex::IndexedFiles &Index,
                           const Symbol &S) {
   // We expect the definition to see the canonical declaration, so it seems to
   // be enough to check only the definition if it exists.
   const char *OwningFile =
       S.Definition ? S.Definition.FileURI : S.CanonicalDeclaration.FileURI;
   return (Index(OwningFile) & IndexContents::Symbols) != IndexContents::None;
 }
 } // namespace

 bool MergedIndex::fuzzyFind(
     const FuzzyFindRequest &Req,
     llvm::function_ref<void(const Symbol &)> Callback) const {
   // We can't step through both sources in parallel. So:
   //  1) query all dynamic symbols, slurping results into a slab
   //  2) query the static symbols, for each one:
   //    a) if it's not in the dynamic slab, yield it directly
   //    b) if it's in the dynamic slab, merge it and yield the result
   //  3) now yield all the dynamic symbols we haven't processed.
   trace::Span Tracer("MergedIndex fuzzyFind");
   bool More = false; // We'll be incomplete if either source was.
   SymbolSlab::Builder DynB;
   unsigned DynamicCount = 0;
   unsigned StaticCount = 0;
   unsigned MergedCount = 0;
   // Number of results ignored due to staleness.
   unsigned StaticDropped = 0;
   More |= Dynamic->fuzzyFind(Req, [&](const Symbol &S) {
     ++DynamicCount;
     DynB.insert(S);
   });
   SymbolSlab Dyn = std::move(DynB).build();

   llvm::DenseSet<SymbolID> ReportedDynSymbols;
   {
     auto DynamicContainsFile = Dynamic->indexedFiles();
     More |= Static->fuzzyFind(Req, [&](const Symbol &S) {
       ++StaticCount;
       auto DynS = Dyn.find(S.ID);
       // If symbol also exist in the dynamic index, just merge and report.
       if (DynS != Dyn.end()) {
         ++MergedCount;
         ReportedDynSymbols.insert(S.ID);
         return Callback(mergeSymbol(*DynS, S));
       }

       // Otherwise, if the dynamic index owns the symbol's file, it means static
       // index is stale just drop the symbol.
       if (isIndexAuthoritative(DynamicContainsFile, S)) {
         ++StaticDropped;
         return;
       }

       // If not just report the symbol from static index as is.
       return Callback(S);
     });
   }
   SPAN_ATTACH(Tracer, "dynamic", DynamicCount);
   SPAN_ATTACH(Tracer, "static", StaticCount);
   SPAN_ATTACH(Tracer, "static_dropped", StaticDropped);
   SPAN_ATTACH(Tracer, "merged", MergedCount);
   for (const Symbol &S : Dyn)
     if (!ReportedDynSymbols.count(S.ID))
       Callback(S);
   return More;
 }

 void MergedIndex::lookup(
     const LookupRequest &Req,
     llvm::function_ref<void(const Symbol &)> Callback) const {
   trace::Span Tracer("MergedIndex lookup");
   SymbolSlab::Builder B;

   Dynamic->lookup(Req, [&](const Symbol &S) { B.insert(S); });

   auto RemainingIDs = Req.IDs;
   {
     auto DynamicContainsFile = Dynamic->indexedFiles();
     Static->lookup(Req, [&](const Symbol &S) {
       // If we've seen the symbol before, just merge.
       if (const Symbol *Sym = B.find(S.ID)) {
         RemainingIDs.erase(S.ID);
         return Callback(mergeSymbol(*Sym, S));
       }

       // If symbol is missing in dynamic index, and dynamic index owns the
       // symbol's file. Static index is stale, just drop the symbol.
       if (isIndexAuthoritative(DynamicContainsFile, S))
         return;

       // Dynamic index doesn't know about this file, just use the symbol from
       // static index.
       RemainingIDs.erase(S.ID);
       Callback(S);
     });
   }
   for (const auto &ID : RemainingIDs)
     if (const Symbol *Sym = B.find(ID))
       Callback(*Sym);
 }

 bool MergedIndex::refs(const RefsRequest &Req,
                        llvm::function_ref<void(const Ref &)> Callback) const {
   trace::Span Tracer("MergedIndex refs");
   bool More = false;
   uint32_t Remaining =
       Req.Limit.getValueOr(std::numeric_limits<uint32_t>::max());
   // We don't want duplicated refs from the static/dynamic indexes,
   // and we can't reliably deduplicate them because offsets may differ slightly.
   // We consider the dynamic index authoritative and report all its refs,
   // and only report static index refs from other files.
   More |= Dynamic->refs(Req, [&](const Ref &O) {
     Callback(O);
     assert(Remaining != 0);
     --Remaining;
   });
   if (Remaining == 0 && More)
     return More;
   auto DynamicContainsFile = Dynamic->indexedFiles();
   // We return less than Req.Limit if static index returns more refs for dirty
   // files.
   bool StaticHadMore = Static->refs(Req, [&](const Ref &O) {
     if ((DynamicContainsFile(O.Location.FileURI) & IndexContents::References) !=
         IndexContents::None)
       return; // ignore refs that have been seen from dynamic index.
     if (Remaining == 0) {
       More = true;
       return;
     }
     --Remaining;
     Callback(O);
   });
   return More || StaticHadMore;
 }

 llvm::unique_function<IndexContents(llvm::StringRef) const>
 MergedIndex::indexedFiles() const {
   return [DynamicContainsFile{Dynamic->indexedFiles()},
           StaticContainsFile{Static->indexedFiles()}](llvm::StringRef FileURI) {
     return DynamicContainsFile(FileURI) | StaticContainsFile(FileURI);
   };
 }

 void MergedIndex::relations(
     const RelationsRequest &Req,
     llvm::function_ref<void(const SymbolID &, const Symbol &)> Callback) const {
   uint32_t Remaining =
       Req.Limit.getValueOr(std::numeric_limits<uint32_t>::max());
   // Return results from both indexes but avoid duplicates.
   // We might return stale relations from the static index;
   // we don't currently have a good way of identifying them.
   llvm::DenseSet<std::pair<SymbolID, SymbolID>> SeenRelations;
   Dynamic->relations(Req, [&](const SymbolID &Subject, const Symbol &Object) {
     Callback(Subject, Object);
     SeenRelations.insert(std::make_pair(Subject, Object.ID));
     --Remaining;
   });
   if (Remaining == 0)
     return;
   Static->relations(Req, [&](const SymbolID &Subject, const Symbol &Object) {
     if (Remaining > 0 &&
         !SeenRelations.count(std::make_pair(Subject, Object.ID))) {
       --Remaining;
       Callback(Subject, Object);
     }
   });
 }

 // Returns true if \p L is (strictly) preferred to \p R (e.g. by file paths). If
 // neither is preferred, this returns false.
 static bool prefer(const SymbolLocation &L, const SymbolLocation &R) {
   if (!L)
     return false;
   if (!R)
     return true;
   auto HasCodeGenSuffix = [](const SymbolLocation &Loc) {
     constexpr static const char *CodegenSuffixes[] = {".proto"};
     return std::any_of(std::begin(CodegenSuffixes), std::end(CodegenSuffixes),
                        [&](llvm::StringRef Suffix) {
                          return llvm::StringRef(Loc.FileURI).endswith(Suffix);
                        });
   };
   return HasCodeGenSuffix(L) && !HasCodeGenSuffix(R);
 }

 Symbol mergeSymbol(const Symbol &L, const Symbol &R) {
   assert(L.ID == R.ID);
   // We prefer information from TUs that saw the definition.
   // Classes: this is the def itself. Functions: hopefully the header decl.
   // If both did (or both didn't), continue to prefer L over R.
   bool PreferR = R.Definition && !L.Definition;
   // Merge include headers only if both have definitions or both have no
   // definition; otherwise, only accumulate references of common includes.
   assert(L.Definition.FileURI && R.Definition.FileURI);
   bool MergeIncludes =
       bool(*L.Definition.FileURI) == bool(*R.Definition.FileURI);
   Symbol S = PreferR ? R : L;        // The target symbol we're merging into.
   const Symbol &O = PreferR ? L : R; // The "other" less-preferred symbol.

   // Only use locations in \p O if it's (strictly) preferred.
   if (prefer(O.CanonicalDeclaration, S.CanonicalDeclaration))
     S.CanonicalDeclaration = O.CanonicalDeclaration;
   if (prefer(O.Definition, S.Definition))
     S.Definition = O.Definition;
   S.References += O.References;
   if (S.Signature == "")
     S.Signature = O.Signature;
   if (S.CompletionSnippetSuffix == "")
     S.CompletionSnippetSuffix = O.CompletionSnippetSuffix;
   if (S.Documentation == "") {
     // Don't accept documentation from bare forward class declarations, if there
     // is a definition and it didn't provide one. S is often an undocumented
     // class, and O is a non-canonical forward decl preceded by an irrelevant
     // comment.
     bool IsClass = S.SymInfo.Kind == index::SymbolKind::Class ||
                    S.SymInfo.Kind == index::SymbolKind::Struct ||
                    S.SymInfo.Kind == index::SymbolKind::Union;
     if (!IsClass || !S.Definition)
       S.Documentation = O.Documentation;
   }
   if (S.ReturnType == "")
     S.ReturnType = O.ReturnType;
   if (S.Type == "")
     S.Type = O.Type;
   for (const auto &OI : O.IncludeHeaders) {
     bool Found = false;
     for (auto &SI : S.IncludeHeaders) {
       if (SI.IncludeHeader == OI.IncludeHeader) {
         Found = true;
         SI.References += OI.References;
         break;
       }
     }
     if (!Found && MergeIncludes)
       S.IncludeHeaders.emplace_back(OI.IncludeHeader, OI.References);
   }

   S.Origin |= O.Origin | SymbolOrigin::Merge;
   S.Flags |= O.Flags;
   return S;
 }

 } // namespace clangd
 } // namespace clang
	//===--- Merge.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
	//
	//===----------------------------------------------------------------------===//

	#include "Merge.h"
	#include "index/Symbol.h"
	#include "index/SymbolLocation.h"
	#include "index/SymbolOrigin.h"
	#include "support/Logger.h"
	#include "support/Trace.h"
	#include "llvm/ADT/STLExtras.h"
	#include "llvm/ADT/StringRef.h"
	#include "llvm/ADT/StringSet.h"
	#include "llvm/Support/raw_ostream.h"
	#include <algorithm>
	#include <iterator>

	namespace clang {
	namespace clangd {

	namespace {

	// Returns true if file defining/declaring \p S is covered by \p Index.
	bool isIndexAuthoritative(const SymbolIndex::IndexedFiles &Index,
	const Symbol &S) {
	// We expect the definition to see the canonical declaration, so it seems to
	// be enough to check only the definition if it exists.
	const char *OwningFile =
	S.Definition ? S.Definition.FileURI : S.CanonicalDeclaration.FileURI;
	return (Index(OwningFile) & IndexContents::Symbols) != IndexContents::None;
	}
	} // namespace

	bool MergedIndex::fuzzyFind(
	const FuzzyFindRequest &Req,
	llvm::function_ref<void(const Symbol &)> Callback) const {
	// We can't step through both sources in parallel. So:
	// 1) query all dynamic symbols, slurping results into a slab
	// 2) query the static symbols, for each one:
	// a) if it's not in the dynamic slab, yield it directly
	// b) if it's in the dynamic slab, merge it and yield the result
	// 3) now yield all the dynamic symbols we haven't processed.
	trace::Span Tracer("MergedIndex fuzzyFind");
	bool More = false; // We'll be incomplete if either source was.
	SymbolSlab::Builder DynB;
	unsigned DynamicCount = 0;
	unsigned StaticCount = 0;
	unsigned MergedCount = 0;
	// Number of results ignored due to staleness.
	unsigned StaticDropped = 0;
	More \|= Dynamic->fuzzyFind(Req, [&](const Symbol &S) {
	++DynamicCount;
	DynB.insert(S);
	});
	SymbolSlab Dyn = std::move(DynB).build();

	llvm::DenseSet<SymbolID> ReportedDynSymbols;
	{
	auto DynamicContainsFile = Dynamic->indexedFiles();
	More \|= Static->fuzzyFind(Req, [&](const Symbol &S) {
	++StaticCount;
	auto DynS = Dyn.find(S.ID);
	// If symbol also exist in the dynamic index, just merge and report.
	if (DynS != Dyn.end()) {
	++MergedCount;
	ReportedDynSymbols.insert(S.ID);
	return Callback(mergeSymbol(*DynS, S));
	}

	// Otherwise, if the dynamic index owns the symbol's file, it means static
	// index is stale just drop the symbol.
	if (isIndexAuthoritative(DynamicContainsFile, S)) {
	++StaticDropped;
	return;
	}

	// If not just report the symbol from static index as is.
	return Callback(S);
	});
	}
	SPAN_ATTACH(Tracer, "dynamic", DynamicCount);
	SPAN_ATTACH(Tracer, "static", StaticCount);
	SPAN_ATTACH(Tracer, "static_dropped", StaticDropped);
	SPAN_ATTACH(Tracer, "merged", MergedCount);
	for (const Symbol &S : Dyn)
	if (!ReportedDynSymbols.count(S.ID))
	Callback(S);
	return More;
	}

	void MergedIndex::lookup(
	const LookupRequest &Req,
	llvm::function_ref<void(const Symbol &)> Callback) const {
	trace::Span Tracer("MergedIndex lookup");
	SymbolSlab::Builder B;

	Dynamic->lookup(Req, [&](const Symbol &S) { B.insert(S); });

	auto RemainingIDs = Req.IDs;
	{
	auto DynamicContainsFile = Dynamic->indexedFiles();
	Static->lookup(Req, [&](const Symbol &S) {
	// If we've seen the symbol before, just merge.
	if (const Symbol *Sym = B.find(S.ID)) {
	RemainingIDs.erase(S.ID);
	return Callback(mergeSymbol(*Sym, S));
	}

	// If symbol is missing in dynamic index, and dynamic index owns the
	// symbol's file. Static index is stale, just drop the symbol.
	if (isIndexAuthoritative(DynamicContainsFile, S))
	return;

	// Dynamic index doesn't know about this file, just use the symbol from
	// static index.
	RemainingIDs.erase(S.ID);
	Callback(S);
	});
	}
	for (const auto &ID : RemainingIDs)
	if (const Symbol *Sym = B.find(ID))
	Callback(*Sym);
	}

	bool MergedIndex::refs(const RefsRequest &Req,
	llvm::function_ref<void(const Ref &)> Callback) const {
	trace::Span Tracer("MergedIndex refs");
	bool More = false;
	uint32_t Remaining =
	Req.Limit.getValueOr(std::numeric_limits<uint32_t>::max());
	// We don't want duplicated refs from the static/dynamic indexes,
	// and we can't reliably deduplicate them because offsets may differ slightly.
	// We consider the dynamic index authoritative and report all its refs,
	// and only report static index refs from other files.
	More \|= Dynamic->refs(Req, [&](const Ref &O) {
	Callback(O);
	assert(Remaining != 0);
	--Remaining;
	});
	if (Remaining == 0 && More)
	return More;
	auto DynamicContainsFile = Dynamic->indexedFiles();
	// We return less than Req.Limit if static index returns more refs for dirty
	// files.
	bool StaticHadMore = Static->refs(Req, [&](const Ref &O) {
	if ((DynamicContainsFile(O.Location.FileURI) & IndexContents::References) !=
	IndexContents::None)
	return; // ignore refs that have been seen from dynamic index.
	if (Remaining == 0) {
	More = true;
	return;
	}
	--Remaining;
	Callback(O);
	});
	return More \|\| StaticHadMore;
	}

	llvm::unique_function<IndexContents(llvm::StringRef) const>
	MergedIndex::indexedFiles() const {
	return [DynamicContainsFile{Dynamic->indexedFiles()},
	StaticContainsFile{Static->indexedFiles()}](llvm::StringRef FileURI) {
	return DynamicContainsFile(FileURI) \| StaticContainsFile(FileURI);
	};
	}

	void MergedIndex::relations(
	const RelationsRequest &Req,
	llvm::function_ref<void(const SymbolID &, const Symbol &)> Callback) const {
	uint32_t Remaining =
	Req.Limit.getValueOr(std::numeric_limits<uint32_t>::max());
	// Return results from both indexes but avoid duplicates.
	// We might return stale relations from the static index;
	// we don't currently have a good way of identifying them.
	llvm::DenseSet<std::pair<SymbolID, SymbolID>> SeenRelations;
	Dynamic->relations(Req, [&](const SymbolID &Subject, const Symbol &Object) {
	Callback(Subject, Object);
	SeenRelations.insert(std::make_pair(Subject, Object.ID));
	--Remaining;
	});
	if (Remaining == 0)
	return;
	Static->relations(Req, [&](const SymbolID &Subject, const Symbol &Object) {
	if (Remaining > 0 &&
	!SeenRelations.count(std::make_pair(Subject, Object.ID))) {
	--Remaining;
	Callback(Subject, Object);
	}
	});
	}

	// Returns true if \p L is (strictly) preferred to \p R (e.g. by file paths). If
	// neither is preferred, this returns false.
	static bool prefer(const SymbolLocation &L, const SymbolLocation &R) {
	if (!L)
	return false;
	if (!R)
	return true;
	auto HasCodeGenSuffix = [](const SymbolLocation &Loc) {
	constexpr static const char *CodegenSuffixes[] = {".proto"};
	return std::any_of(std::begin(CodegenSuffixes), std::end(CodegenSuffixes),
	[&](llvm::StringRef Suffix) {
	return llvm::StringRef(Loc.FileURI).endswith(Suffix);
	});
	};
	return HasCodeGenSuffix(L) && !HasCodeGenSuffix(R);
	}

	Symbol mergeSymbol(const Symbol &L, const Symbol &R) {
	assert(L.ID == R.ID);
	// We prefer information from TUs that saw the definition.
	// Classes: this is the def itself. Functions: hopefully the header decl.
	// If both did (or both didn't), continue to prefer L over R.
	bool PreferR = R.Definition && !L.Definition;
	// Merge include headers only if both have definitions or both have no
	// definition; otherwise, only accumulate references of common includes.
	assert(L.Definition.FileURI && R.Definition.FileURI);
	bool MergeIncludes =
	bool(L.Definition.FileURI) == bool(R.Definition.FileURI);
	Symbol S = PreferR ? R : L; // The target symbol we're merging into.
	const Symbol &O = PreferR ? L : R; // The "other" less-preferred symbol.

	// Only use locations in \p O if it's (strictly) preferred.
	if (prefer(O.CanonicalDeclaration, S.CanonicalDeclaration))
	S.CanonicalDeclaration = O.CanonicalDeclaration;
	if (prefer(O.Definition, S.Definition))
	S.Definition = O.Definition;
	S.References += O.References;
	if (S.Signature == "")
	S.Signature = O.Signature;
	if (S.CompletionSnippetSuffix == "")
	S.CompletionSnippetSuffix = O.CompletionSnippetSuffix;
	if (S.Documentation == "") {
	// Don't accept documentation from bare forward class declarations, if there
	// is a definition and it didn't provide one. S is often an undocumented
	// class, and O is a non-canonical forward decl preceded by an irrelevant
	// comment.
	bool IsClass = S.SymInfo.Kind == index::SymbolKind::Class \|\|
	S.SymInfo.Kind == index::SymbolKind::Struct \|\|
	S.SymInfo.Kind == index::SymbolKind::Union;
	if (!IsClass \|\| !S.Definition)
	S.Documentation = O.Documentation;
	}
	if (S.ReturnType == "")
	S.ReturnType = O.ReturnType;
	if (S.Type == "")
	S.Type = O.Type;
	for (const auto &OI : O.IncludeHeaders) {
	bool Found = false;
	for (auto &SI : S.IncludeHeaders) {
	if (SI.IncludeHeader == OI.IncludeHeader) {
	Found = true;
	SI.References += OI.References;
	break;
	}
	}
	if (!Found && MergeIncludes)
	S.IncludeHeaders.emplace_back(OI.IncludeHeader, OI.References);
	}

	S.Origin \|= O.Origin \| SymbolOrigin::Merge;
	S.Flags \|= O.Flags;
	return S;
	}

	} // namespace clangd
	} // namespace clang