clangd/index/MemIndex.cpp - toolchain/clang-tools-extra - Git at Google

 //===--- MemIndex.cpp - Dynamic in-memory symbol index. ----------*- C++-*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===-------------------------------------------------------------------===//

 #include "MemIndex.h"
 #include "FuzzyMatch.h"
 #include "Logger.h"
 #include "Quality.h"
 #include "Trace.h"

 using namespace llvm;
 namespace clang {
 namespace clangd {

 std::unique_ptr<SymbolIndex> MemIndex::build(SymbolSlab Slab, RefSlab Refs) {
   // Store Slab size before it is moved.
   const auto BackingDataSize = Slab.bytes() + Refs.bytes();
   auto Data = std::make_pair(std::move(Slab), std::move(Refs));
   return llvm::make_unique<MemIndex>(Data.first, Data.second, std::move(Data),
                                      BackingDataSize);
 }

 bool MemIndex::fuzzyFind(const FuzzyFindRequest &Req,
                          function_ref<void(const Symbol &)> Callback) const {
   assert(!StringRef(Req.Query).contains("::") &&
          "There must be no :: in query.");
   trace::Span Tracer("MemIndex fuzzyFind");

   TopN<std::pair<float, const Symbol *>> Top(
       Req.Limit ? *Req.Limit : std::numeric_limits<size_t>::max());
   FuzzyMatcher Filter(Req.Query);
   bool More = false;
   for (const auto Pair : Index) {
     const Symbol *Sym = Pair.second;

     // Exact match against all possible scopes.
     if (!Req.AnyScope && !is_contained(Req.Scopes, Sym->Scope))
       continue;
     if (Req.RestrictForCodeCompletion &&
         !(Sym->Flags & Symbol::IndexedForCodeCompletion))
       continue;

     if (auto Score = Filter.match(Sym->Name))
       if (Top.push({*Score * quality(*Sym), Sym}))
         More = true; // An element with smallest score was discarded.
   }
   auto Results = std::move(Top).items();
   SPAN_ATTACH(Tracer, "results", static_cast<int>(Results.size()));
   for (const auto &Item : Results)
     Callback(*Item.second);
   return More;
 }

 void MemIndex::lookup(const LookupRequest &Req,
                       function_ref<void(const Symbol &)> Callback) const {
   trace::Span Tracer("MemIndex lookup");
   for (const auto &ID : Req.IDs) {
     auto I = Index.find(ID);
     if (I != Index.end())
       Callback(*I->second);
   }
 }

 void MemIndex::refs(const RefsRequest &Req,
                     function_ref<void(const Ref &)> Callback) const {
   trace::Span Tracer("MemIndex refs");
   for (const auto &ReqID : Req.IDs) {
     auto SymRefs = Refs.find(ReqID);
     if (SymRefs == Refs.end())
       continue;
     for (const auto &O : SymRefs->second)
       if (static_cast<int>(Req.Filter & O.Kind))
         Callback(O);
   }
 }

 size_t MemIndex::estimateMemoryUsage() const {
   return Index.getMemorySize() + Refs.getMemorySize() + BackingDataSize;
 }

 } // namespace clangd
 } // namespace clang
	//===--- MemIndex.cpp - Dynamic in-memory symbol index. ----------- C++--===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===-------------------------------------------------------------------===//

	#include "MemIndex.h"
	#include "FuzzyMatch.h"
	#include "Logger.h"
	#include "Quality.h"
	#include "Trace.h"

	using namespace llvm;
	namespace clang {
	namespace clangd {

	std::unique_ptr<SymbolIndex> MemIndex::build(SymbolSlab Slab, RefSlab Refs) {
	// Store Slab size before it is moved.
	const auto BackingDataSize = Slab.bytes() + Refs.bytes();
	auto Data = std::make_pair(std::move(Slab), std::move(Refs));
	return llvm::make_unique<MemIndex>(Data.first, Data.second, std::move(Data),
	BackingDataSize);
	}

	bool MemIndex::fuzzyFind(const FuzzyFindRequest &Req,
	function_ref<void(const Symbol &)> Callback) const {
	assert(!StringRef(Req.Query).contains("::") &&
	"There must be no :: in query.");
	trace::Span Tracer("MemIndex fuzzyFind");

	TopN<std::pair<float, const Symbol *>> Top(
	Req.Limit ? *Req.Limit : std::numeric_limits<size_t>::max());
	FuzzyMatcher Filter(Req.Query);
	bool More = false;
	for (const auto Pair : Index) {
	const Symbol *Sym = Pair.second;

	// Exact match against all possible scopes.
	if (!Req.AnyScope && !is_contained(Req.Scopes, Sym->Scope))
	continue;
	if (Req.RestrictForCodeCompletion &&
	!(Sym->Flags & Symbol::IndexedForCodeCompletion))
	continue;

	if (auto Score = Filter.match(Sym->Name))
	if (Top.push({Score quality(*Sym), Sym}))
	More = true; // An element with smallest score was discarded.
	}
	auto Results = std::move(Top).items();
	SPAN_ATTACH(Tracer, "results", static_cast<int>(Results.size()));
	for (const auto &Item : Results)
	Callback(*Item.second);
	return More;
	}

	void MemIndex::lookup(const LookupRequest &Req,
	function_ref<void(const Symbol &)> Callback) const {
	trace::Span Tracer("MemIndex lookup");
	for (const auto &ID : Req.IDs) {
	auto I = Index.find(ID);
	if (I != Index.end())
	Callback(*I->second);
	}
	}

	void MemIndex::refs(const RefsRequest &Req,
	function_ref<void(const Ref &)> Callback) const {
	trace::Span Tracer("MemIndex refs");
	for (const auto &ReqID : Req.IDs) {
	auto SymRefs = Refs.find(ReqID);
	if (SymRefs == Refs.end())
	continue;
	for (const auto &O : SymRefs->second)
	if (static_cast<int>(Req.Filter & O.Kind))
	Callback(O);
	}
	}

	size_t MemIndex::estimateMemoryUsage() const {
	return Index.getMemorySize() + Refs.getMemorySize() + BackingDataSize;
	}

	} // namespace clangd
	} // namespace clang