llvm-project/clang-tools-extra/clangd/ClangdServer.cpp

595 lines
22 KiB
C++

//===--- ClangdServer.cpp - Main clangd server code --------------*- 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 "ClangdServer.h"
#include "ClangdUnit.h"
#include "CodeComplete.h"
#include "FindSymbols.h"
#include "Headers.h"
#include "SourceCode.h"
#include "Trace.h"
#include "XRefs.h"
#include "index/FileIndex.h"
#include "index/Merge.h"
#include "refactor/Tweak.h"
#include "clang/Format/Format.h"
#include "clang/Frontend/CompilerInstance.h"
#include "clang/Frontend/CompilerInvocation.h"
#include "clang/Lex/Preprocessor.h"
#include "clang/Tooling/CompilationDatabase.h"
#include "clang/Tooling/Core/Replacement.h"
#include "clang/Tooling/Refactoring/RefactoringResultConsumer.h"
#include "clang/Tooling/Refactoring/Rename/RenamingAction.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/ADT/Optional.h"
#include "llvm/ADT/ScopeExit.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/Support/Errc.h"
#include "llvm/Support/Error.h"
#include "llvm/Support/FileSystem.h"
#include "llvm/Support/Path.h"
#include "llvm/Support/raw_ostream.h"
#include <future>
#include <memory>
#include <mutex>
namespace clang {
namespace clangd {
namespace {
class RefactoringResultCollector final
: public tooling::RefactoringResultConsumer {
public:
void handleError(llvm::Error Err) override {
assert(!Result.hasValue());
// FIXME: figure out a way to return better message for DiagnosticError.
// clangd uses llvm::toString to convert the Err to string, however, for
// DiagnosticError, only "clang diagnostic" will be generated.
Result = std::move(Err);
}
// Using the handle(SymbolOccurrences) from parent class.
using tooling::RefactoringResultConsumer::handle;
void handle(tooling::AtomicChanges SourceReplacements) override {
assert(!Result.hasValue());
Result = std::move(SourceReplacements);
}
llvm::Optional<llvm::Expected<tooling::AtomicChanges>> Result;
};
// Update the FileIndex with new ASTs and plumb the diagnostics responses.
struct UpdateIndexCallbacks : public ParsingCallbacks {
UpdateIndexCallbacks(FileIndex *FIndex, DiagnosticsConsumer &DiagConsumer)
: FIndex(FIndex), DiagConsumer(DiagConsumer) {}
void onPreambleAST(PathRef Path, ASTContext &Ctx,
std::shared_ptr<clang::Preprocessor> PP) override {
if (FIndex)
FIndex->updatePreamble(Path, Ctx, std::move(PP));
}
void onMainAST(PathRef Path, ParsedAST &AST) override {
if (FIndex)
FIndex->updateMain(Path, AST);
}
void onDiagnostics(PathRef File, std::vector<Diag> Diags) override {
DiagConsumer.onDiagnosticsReady(File, std::move(Diags));
}
void onFileUpdated(PathRef File, const TUStatus &Status) override {
DiagConsumer.onFileUpdated(File, Status);
}
private:
FileIndex *FIndex;
DiagnosticsConsumer &DiagConsumer;
};
} // namespace
ClangdServer::Options ClangdServer::optsForTest() {
ClangdServer::Options Opts;
Opts.UpdateDebounce = std::chrono::steady_clock::duration::zero(); // Faster!
Opts.StorePreamblesInMemory = true;
Opts.AsyncThreadsCount = 4; // Consistent!
return Opts;
}
ClangdServer::ClangdServer(const GlobalCompilationDatabase &CDB,
const FileSystemProvider &FSProvider,
DiagnosticsConsumer &DiagConsumer,
const Options &Opts)
: CDB(CDB), FSProvider(FSProvider),
DynamicIdx(Opts.BuildDynamicSymbolIndex
? new FileIndex(Opts.HeavyweightDynamicSymbolIndex)
: nullptr),
ClangTidyOptProvider(Opts.ClangTidyOptProvider),
SuggestMissingIncludes(Opts.SuggestMissingIncludes),
WorkspaceRoot(Opts.WorkspaceRoot),
PCHs(std::make_shared<PCHContainerOperations>()),
// Pass a callback into `WorkScheduler` to extract symbols from a newly
// parsed file and rebuild the file index synchronously each time an AST
// is parsed.
// FIXME(ioeric): this can be slow and we may be able to index on less
// critical paths.
WorkScheduler(Opts.AsyncThreadsCount, Opts.StorePreamblesInMemory,
llvm::make_unique<UpdateIndexCallbacks>(DynamicIdx.get(),
DiagConsumer),
Opts.UpdateDebounce, Opts.RetentionPolicy) {
// Adds an index to the stack, at higher priority than existing indexes.
auto AddIndex = [&](SymbolIndex *Idx) {
if (this->Index != nullptr) {
MergedIdx.push_back(llvm::make_unique<MergedIndex>(Idx, this->Index));
this->Index = MergedIdx.back().get();
} else {
this->Index = Idx;
}
};
if (Opts.StaticIndex)
AddIndex(Opts.StaticIndex);
if (Opts.BackgroundIndex) {
BackgroundIdx = llvm::make_unique<BackgroundIndex>(
Context::current().clone(), FSProvider, CDB,
BackgroundIndexStorage::createDiskBackedStorageFactory(),
Opts.BackgroundIndexRebuildPeriodMs);
AddIndex(BackgroundIdx.get());
}
if (DynamicIdx)
AddIndex(DynamicIdx.get());
}
void ClangdServer::addDocument(PathRef File, llvm::StringRef Contents,
WantDiagnostics WantDiags) {
ParseOptions Opts;
Opts.ClangTidyOpts = tidy::ClangTidyOptions::getDefaults();
if (ClangTidyOptProvider)
Opts.ClangTidyOpts = ClangTidyOptProvider->getOptions(File);
Opts.SuggestMissingIncludes = SuggestMissingIncludes;
// FIXME: some build systems like Bazel will take time to preparing
// environment to build the file, it would be nice if we could emit a
// "PreparingBuild" status to inform users, it is non-trivial given the
// current implementation.
ParseInputs Inputs;
Inputs.CompileCommand = getCompileCommand(File);
Inputs.FS = FSProvider.getFileSystem();
Inputs.Contents = Contents;
Inputs.Opts = std::move(Opts);
Inputs.Index = Index;
WorkScheduler.update(File, Inputs, WantDiags);
}
void ClangdServer::removeDocument(PathRef File) { WorkScheduler.remove(File); }
void ClangdServer::codeComplete(PathRef File, Position Pos,
const clangd::CodeCompleteOptions &Opts,
Callback<CodeCompleteResult> CB) {
// Copy completion options for passing them to async task handler.
auto CodeCompleteOpts = Opts;
if (!CodeCompleteOpts.Index) // Respect overridden index.
CodeCompleteOpts.Index = Index;
// Copy PCHs to avoid accessing this->PCHs concurrently
std::shared_ptr<PCHContainerOperations> PCHs = this->PCHs;
auto FS = FSProvider.getFileSystem();
auto Task = [PCHs, Pos, FS, CodeCompleteOpts,
this](Path File, Callback<CodeCompleteResult> CB,
llvm::Expected<InputsAndPreamble> IP) {
if (!IP)
return CB(IP.takeError());
if (isCancelled())
return CB(llvm::make_error<CancelledError>());
llvm::Optional<SpeculativeFuzzyFind> SpecFuzzyFind;
if (CodeCompleteOpts.Index && CodeCompleteOpts.SpeculativeIndexRequest) {
SpecFuzzyFind.emplace();
{
std::lock_guard<std::mutex> Lock(CachedCompletionFuzzyFindRequestMutex);
SpecFuzzyFind->CachedReq = CachedCompletionFuzzyFindRequestByFile[File];
}
}
// FIXME(ibiryukov): even if Preamble is non-null, we may want to check
// both the old and the new version in case only one of them matches.
CodeCompleteResult Result = clangd::codeComplete(
File, IP->Command, IP->Preamble, IP->Contents, Pos, FS, PCHs,
CodeCompleteOpts, SpecFuzzyFind ? SpecFuzzyFind.getPointer() : nullptr);
{
clang::clangd::trace::Span Tracer("Completion results callback");
CB(std::move(Result));
}
if (SpecFuzzyFind && SpecFuzzyFind->NewReq.hasValue()) {
std::lock_guard<std::mutex> Lock(CachedCompletionFuzzyFindRequestMutex);
CachedCompletionFuzzyFindRequestByFile[File] =
SpecFuzzyFind->NewReq.getValue();
}
// SpecFuzzyFind is only destroyed after speculative fuzzy find finishes.
// We don't want `codeComplete` to wait for the async call if it doesn't use
// the result (e.g. non-index completion, speculation fails), so that `CB`
// is called as soon as results are available.
};
// We use a potentially-stale preamble because latency is critical here.
WorkScheduler.runWithPreamble("CodeComplete", File, TUScheduler::Stale,
Bind(Task, File.str(), std::move(CB)));
}
void ClangdServer::signatureHelp(PathRef File, Position Pos,
Callback<SignatureHelp> CB) {
auto PCHs = this->PCHs;
auto FS = FSProvider.getFileSystem();
auto *Index = this->Index;
auto Action = [Pos, FS, PCHs, Index](Path File, Callback<SignatureHelp> CB,
llvm::Expected<InputsAndPreamble> IP) {
if (!IP)
return CB(IP.takeError());
auto PreambleData = IP->Preamble;
CB(clangd::signatureHelp(File, IP->Command, PreambleData, IP->Contents, Pos,
FS, PCHs, Index));
};
// Unlike code completion, we wait for an up-to-date preamble here.
// Signature help is often triggered after code completion. If the code
// completion inserted a header to make the symbol available, then using
// the old preamble would yield useless results.
WorkScheduler.runWithPreamble("SignatureHelp", File, TUScheduler::Consistent,
Bind(Action, File.str(), std::move(CB)));
}
llvm::Expected<tooling::Replacements>
ClangdServer::formatRange(llvm::StringRef Code, PathRef File, Range Rng) {
llvm::Expected<size_t> Begin = positionToOffset(Code, Rng.start);
if (!Begin)
return Begin.takeError();
llvm::Expected<size_t> End = positionToOffset(Code, Rng.end);
if (!End)
return End.takeError();
return formatCode(Code, File, {tooling::Range(*Begin, *End - *Begin)});
}
llvm::Expected<tooling::Replacements>
ClangdServer::formatFile(llvm::StringRef Code, PathRef File) {
// Format everything.
return formatCode(Code, File, {tooling::Range(0, Code.size())});
}
llvm::Expected<tooling::Replacements>
ClangdServer::formatOnType(llvm::StringRef Code, PathRef File, Position Pos) {
// Look for the previous opening brace from the character position and
// format starting from there.
llvm::Expected<size_t> CursorPos = positionToOffset(Code, Pos);
if (!CursorPos)
return CursorPos.takeError();
size_t PreviousLBracePos =
llvm::StringRef(Code).find_last_of('{', *CursorPos);
if (PreviousLBracePos == llvm::StringRef::npos)
PreviousLBracePos = *CursorPos;
size_t Len = *CursorPos - PreviousLBracePos;
return formatCode(Code, File, {tooling::Range(PreviousLBracePos, Len)});
}
void ClangdServer::rename(PathRef File, Position Pos, llvm::StringRef NewName,
Callback<std::vector<tooling::Replacement>> CB) {
auto Action = [Pos](Path File, std::string NewName,
Callback<std::vector<tooling::Replacement>> CB,
llvm::Expected<InputsAndAST> InpAST) {
if (!InpAST)
return CB(InpAST.takeError());
auto &AST = InpAST->AST;
RefactoringResultCollector ResultCollector;
const SourceManager &SourceMgr = AST.getASTContext().getSourceManager();
SourceLocation SourceLocationBeg =
clangd::getBeginningOfIdentifier(AST, Pos, SourceMgr.getMainFileID());
tooling::RefactoringRuleContext Context(
AST.getASTContext().getSourceManager());
Context.setASTContext(AST.getASTContext());
auto Rename = clang::tooling::RenameOccurrences::initiate(
Context, SourceRange(SourceLocationBeg), NewName);
if (!Rename)
return CB(Rename.takeError());
Rename->invoke(ResultCollector, Context);
assert(ResultCollector.Result.hasValue());
if (!ResultCollector.Result.getValue())
return CB(ResultCollector.Result->takeError());
std::vector<tooling::Replacement> Replacements;
for (const tooling::AtomicChange &Change : ResultCollector.Result->get()) {
tooling::Replacements ChangeReps = Change.getReplacements();
for (const auto &Rep : ChangeReps) {
// FIXME: Right now we only support renaming the main file, so we
// drop replacements not for the main file. In the future, we might
// consider to support:
// * rename in any included header
// * rename only in the "main" header
// * provide an error if there are symbols we won't rename (e.g.
// std::vector)
// * rename globally in project
// * rename in open files
if (Rep.getFilePath() == File)
Replacements.push_back(Rep);
}
}
return CB(std::move(Replacements));
};
WorkScheduler.runWithAST(
"Rename", File, Bind(Action, File.str(), NewName.str(), std::move(CB)));
}
void ClangdServer::enumerateTweaks(PathRef File, Range Sel,
Callback<std::vector<TweakRef>> CB) {
auto Action = [Sel](decltype(CB) CB, std::string File,
Expected<InputsAndAST> InpAST) {
if (!InpAST)
return CB(InpAST.takeError());
auto &AST = InpAST->AST;
auto CursorLoc = sourceLocationInMainFile(
AST.getASTContext().getSourceManager(), Sel.start);
if (!CursorLoc)
return CB(CursorLoc.takeError());
Tweak::Selection Inputs = {InpAST->Inputs.Contents, InpAST->AST,
*CursorLoc};
std::vector<TweakRef> Res;
for (auto &T : prepareTweaks(Inputs))
Res.push_back({T->id(), T->title()});
CB(std::move(Res));
};
WorkScheduler.runWithAST("EnumerateTweaks", File,
Bind(Action, std::move(CB), File.str()));
}
void ClangdServer::applyTweak(PathRef File, Range Sel, StringRef TweakID,
Callback<tooling::Replacements> CB) {
auto Action = [Sel](decltype(CB) CB, std::string File, std::string TweakID,
Expected<InputsAndAST> InpAST) {
if (!InpAST)
return CB(InpAST.takeError());
auto &AST = InpAST->AST;
auto CursorLoc = sourceLocationInMainFile(
AST.getASTContext().getSourceManager(), Sel.start);
if (!CursorLoc)
return CB(CursorLoc.takeError());
Tweak::Selection Inputs = {InpAST->Inputs.Contents, InpAST->AST,
*CursorLoc};
auto A = prepareTweak(TweakID, Inputs);
if (!A)
return CB(A.takeError());
// FIXME: run formatter on top of resulting replacements.
return CB((*A)->apply(Inputs));
};
WorkScheduler.runWithAST(
"ApplyTweak", File,
Bind(Action, std::move(CB), File.str(), TweakID.str()));
}
void ClangdServer::dumpAST(PathRef File,
llvm::unique_function<void(std::string)> Callback) {
auto Action = [](decltype(Callback) Callback,
llvm::Expected<InputsAndAST> InpAST) {
if (!InpAST) {
llvm::consumeError(InpAST.takeError());
return Callback("<no-ast>");
}
std::string Result;
llvm::raw_string_ostream ResultOS(Result);
clangd::dumpAST(InpAST->AST, ResultOS);
ResultOS.flush();
Callback(Result);
};
WorkScheduler.runWithAST("DumpAST", File, Bind(Action, std::move(Callback)));
}
void ClangdServer::findDefinitions(PathRef File, Position Pos,
Callback<std::vector<Location>> CB) {
auto Action = [Pos, this](Callback<std::vector<Location>> CB,
llvm::Expected<InputsAndAST> InpAST) {
if (!InpAST)
return CB(InpAST.takeError());
CB(clangd::findDefinitions(InpAST->AST, Pos, Index));
};
WorkScheduler.runWithAST("Definitions", File, Bind(Action, std::move(CB)));
}
llvm::Optional<Path> ClangdServer::switchSourceHeader(PathRef Path) {
llvm::StringRef SourceExtensions[] = {".cpp", ".c", ".cc", ".cxx",
".c++", ".m", ".mm"};
llvm::StringRef HeaderExtensions[] = {".h", ".hh", ".hpp", ".hxx", ".inc"};
llvm::StringRef PathExt = llvm::sys::path::extension(Path);
// Lookup in a list of known extensions.
auto SourceIter =
llvm::find_if(SourceExtensions, [&PathExt](PathRef SourceExt) {
return SourceExt.equals_lower(PathExt);
});
bool IsSource = SourceIter != std::end(SourceExtensions);
auto HeaderIter =
llvm::find_if(HeaderExtensions, [&PathExt](PathRef HeaderExt) {
return HeaderExt.equals_lower(PathExt);
});
bool IsHeader = HeaderIter != std::end(HeaderExtensions);
// We can only switch between the known extensions.
if (!IsSource && !IsHeader)
return None;
// Array to lookup extensions for the switch. An opposite of where original
// extension was found.
llvm::ArrayRef<llvm::StringRef> NewExts;
if (IsSource)
NewExts = HeaderExtensions;
else
NewExts = SourceExtensions;
// Storage for the new path.
llvm::SmallString<128> NewPath = llvm::StringRef(Path);
// Instance of vfs::FileSystem, used for file existence checks.
auto FS = FSProvider.getFileSystem();
// Loop through switched extension candidates.
for (llvm::StringRef NewExt : NewExts) {
llvm::sys::path::replace_extension(NewPath, NewExt);
if (FS->exists(NewPath))
return NewPath.str().str(); // First str() to convert from SmallString to
// StringRef, second to convert from StringRef
// to std::string
// Also check NewExt in upper-case, just in case.
llvm::sys::path::replace_extension(NewPath, NewExt.upper());
if (FS->exists(NewPath))
return NewPath.str().str();
}
return None;
}
llvm::Expected<tooling::Replacements>
ClangdServer::formatCode(llvm::StringRef Code, PathRef File,
llvm::ArrayRef<tooling::Range> Ranges) {
// Call clang-format.
auto FS = FSProvider.getFileSystem();
auto Style = format::getStyle(format::DefaultFormatStyle, File,
format::DefaultFallbackStyle, Code, FS.get());
if (!Style)
return Style.takeError();
tooling::Replacements IncludeReplaces =
format::sortIncludes(*Style, Code, Ranges, File);
auto Changed = tooling::applyAllReplacements(Code, IncludeReplaces);
if (!Changed)
return Changed.takeError();
return IncludeReplaces.merge(format::reformat(
Style.get(), *Changed,
tooling::calculateRangesAfterReplacements(IncludeReplaces, Ranges),
File));
}
void ClangdServer::findDocumentHighlights(
PathRef File, Position Pos, Callback<std::vector<DocumentHighlight>> CB) {
auto Action = [Pos](Callback<std::vector<DocumentHighlight>> CB,
llvm::Expected<InputsAndAST> InpAST) {
if (!InpAST)
return CB(InpAST.takeError());
CB(clangd::findDocumentHighlights(InpAST->AST, Pos));
};
WorkScheduler.runWithAST("Highlights", File, Bind(Action, std::move(CB)));
}
void ClangdServer::findHover(PathRef File, Position Pos,
Callback<llvm::Optional<Hover>> CB) {
auto Action = [Pos](Callback<llvm::Optional<Hover>> CB,
llvm::Expected<InputsAndAST> InpAST) {
if (!InpAST)
return CB(InpAST.takeError());
CB(clangd::getHover(InpAST->AST, Pos));
};
WorkScheduler.runWithAST("Hover", File, Bind(Action, std::move(CB)));
}
tooling::CompileCommand ClangdServer::getCompileCommand(PathRef File) {
trace::Span Span("GetCompileCommand");
llvm::Optional<tooling::CompileCommand> C = CDB.getCompileCommand(File);
if (!C) // FIXME: Suppress diagnostics? Let the user know?
C = CDB.getFallbackCommand(File);
return std::move(*C);
}
void ClangdServer::onFileEvent(const DidChangeWatchedFilesParams &Params) {
// FIXME: Do nothing for now. This will be used for indexing and potentially
// invalidating other caches.
}
void ClangdServer::workspaceSymbols(
llvm::StringRef Query, int Limit,
Callback<std::vector<SymbolInformation>> CB) {
std::string QueryCopy = Query;
WorkScheduler.run(
"getWorkspaceSymbols",
Bind(
[QueryCopy, Limit, this](decltype(CB) CB) {
CB(clangd::getWorkspaceSymbols(QueryCopy, Limit, Index,
WorkspaceRoot.getValueOr("")));
},
std::move(CB)));
}
void ClangdServer::documentSymbols(llvm::StringRef File,
Callback<std::vector<DocumentSymbol>> CB) {
auto Action = [](Callback<std::vector<DocumentSymbol>> CB,
llvm::Expected<InputsAndAST> InpAST) {
if (!InpAST)
return CB(InpAST.takeError());
CB(clangd::getDocumentSymbols(InpAST->AST));
};
WorkScheduler.runWithAST("documentSymbols", File,
Bind(Action, std::move(CB)));
}
void ClangdServer::findReferences(PathRef File, Position Pos, uint32_t Limit,
Callback<std::vector<Location>> CB) {
auto Action = [Pos, Limit, this](Callback<std::vector<Location>> CB,
llvm::Expected<InputsAndAST> InpAST) {
if (!InpAST)
return CB(InpAST.takeError());
CB(clangd::findReferences(InpAST->AST, Pos, Limit, Index));
};
WorkScheduler.runWithAST("References", File, Bind(Action, std::move(CB)));
}
void ClangdServer::symbolInfo(PathRef File, Position Pos,
Callback<std::vector<SymbolDetails>> CB) {
auto Action = [Pos](Callback<std::vector<SymbolDetails>> CB,
llvm::Expected<InputsAndAST> InpAST) {
if (!InpAST)
return CB(InpAST.takeError());
CB(clangd::getSymbolInfo(InpAST->AST, Pos));
};
WorkScheduler.runWithAST("SymbolInfo", File, Bind(Action, std::move(CB)));
}
std::vector<std::pair<Path, std::size_t>>
ClangdServer::getUsedBytesPerFile() const {
return WorkScheduler.getUsedBytesPerFile();
}
LLVM_NODISCARD bool
ClangdServer::blockUntilIdleForTest(llvm::Optional<double> TimeoutSeconds) {
return WorkScheduler.blockUntilIdle(timeoutSeconds(TimeoutSeconds)) &&
(!BackgroundIdx ||
BackgroundIdx->blockUntilIdleForTest(TimeoutSeconds));
}
} // namespace clangd
} // namespace clang