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

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//===--- ClangdServer.h - Main clangd server code ----------------*- C++-*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_CLANG_TOOLS_EXTRA_CLANGD_CLANGDSERVER_H
#define LLVM_CLANG_TOOLS_EXTRA_CLANGD_CLANGDSERVER_H
#include "ClangdUnit.h"
#include "ClangdUnitStore.h"
#include "CodeComplete.h"
#include "DraftStore.h"
#include "Function.h"
#include "GlobalCompilationDatabase.h"
#include "Protocol.h"
#include "index/FileIndex.h"
#include "clang/Tooling/CompilationDatabase.h"
#include "clang/Tooling/Core/Replacement.h"
#include "llvm/ADT/IntrusiveRefCntPtr.h"
#include "llvm/ADT/Optional.h"
#include "llvm/ADT/StringRef.h"
#include <condition_variable>
#include <functional>
#include <mutex>
#include <string>
#include <thread>
#include <type_traits>
#include <utility>
namespace clang {
class PCHContainerOperations;
namespace clangd {
/// A tag supplied by the FileSytemProvider.
typedef std::string VFSTag;
/// A value of an arbitrary type and VFSTag that was supplied by the
/// FileSystemProvider when this value was computed.
template <class T> class Tagged {
public:
// MSVC requires future<> arguments to be default-constructible.
Tagged() = default;
template <class U>
Tagged(U &&Value, VFSTag Tag)
: Value(std::forward<U>(Value)), Tag(std::move(Tag)) {}
template <class U>
Tagged(const Tagged<U> &Other) : Value(Other.Value), Tag(Other.Tag) {}
template <class U>
Tagged(Tagged<U> &&Other)
: Value(std::move(Other.Value)), Tag(std::move(Other.Tag)) {}
T Value = T();
VFSTag Tag = VFSTag();
};
template <class T>
Tagged<typename std::decay<T>::type> make_tagged(T &&Value, VFSTag Tag) {
return Tagged<typename std::decay<T>::type>(std::forward<T>(Value), Tag);
}
class DiagnosticsConsumer {
public:
virtual ~DiagnosticsConsumer() = default;
/// Called by ClangdServer when \p Diagnostics for \p File are ready.
virtual void
onDiagnosticsReady(const Context &Ctx, PathRef File,
Tagged<std::vector<DiagWithFixIts>> Diagnostics) = 0;
};
class FileSystemProvider {
public:
virtual ~FileSystemProvider() = default;
/// Called by ClangdServer to obtain a vfs::FileSystem to be used for parsing.
/// Name of the file that will be parsed is passed in \p File.
///
/// \return A filesystem that will be used for all file accesses in clangd.
/// A Tag returned by this method will be propagated to all results of clangd
/// that will use this filesystem.
virtual Tagged<IntrusiveRefCntPtr<vfs::FileSystem>>
getTaggedFileSystem(PathRef File) = 0;
};
class RealFileSystemProvider : public FileSystemProvider {
public:
/// \return getRealFileSystem() tagged with default tag, i.e. VFSTag()
Tagged<IntrusiveRefCntPtr<vfs::FileSystem>>
getTaggedFileSystem(PathRef File) override;
};
class ClangdServer;
/// Returns a number of a default async threads to use for ClangdScheduler.
/// Returned value is always >= 1 (i.e. will not cause requests to be processed
/// synchronously).
unsigned getDefaultAsyncThreadsCount();
/// Handles running WorkerRequests of ClangdServer on a number of worker
/// threads.
class ClangdScheduler {
public:
/// If \p AsyncThreadsCount is 0, requests added using addToFront and addToEnd
/// will be processed synchronously on the calling thread.
// Otherwise, \p AsyncThreadsCount threads will be created to schedule the
// requests.
ClangdScheduler(unsigned AsyncThreadsCount);
~ClangdScheduler();
/// Add a new request to run function \p F with args \p As to the start of the
/// queue. The request will be run on a separate thread.
template <class Func, class... Args>
void addToFront(Func &&F, Args &&... As) {
if (RunSynchronously) {
std::forward<Func>(F)(std::forward<Args>(As)...);
return;
}
{
std::lock_guard<std::mutex> Lock(Mutex);
RequestQueue.push_front(
BindWithForward(std::forward<Func>(F), std::forward<Args>(As)...));
}
RequestCV.notify_one();
}
/// Add a new request to run function \p F with args \p As to the end of the
/// queue. The request will be run on a separate thread.
template <class Func, class... Args> void addToEnd(Func &&F, Args &&... As) {
if (RunSynchronously) {
std::forward<Func>(F)(std::forward<Args>(As)...);
return;
}
{
std::lock_guard<std::mutex> Lock(Mutex);
RequestQueue.push_back(
BindWithForward(std::forward<Func>(F), std::forward<Args>(As)...));
}
RequestCV.notify_one();
}
private:
bool RunSynchronously;
std::mutex Mutex;
/// We run some tasks on separate threads(parsing, CppFile cleanup).
/// These threads looks into RequestQueue to find requests to handle and
/// terminate when Done is set to true.
std::vector<std::thread> Workers;
/// Setting Done to true will make the worker threads terminate.
bool Done = false;
/// A queue of requests. Elements of this vector are async computations (i.e.
/// results of calling std::async(std::launch::deferred, ...)).
std::deque<UniqueFunction<void()>> RequestQueue;
/// Condition variable to wake up worker threads.
std::condition_variable RequestCV;
};
/// Provides API to manage ASTs for a collection of C++ files and request
/// various language features.
/// Currently supports async diagnostics, code completion, formatting and goto
/// definition.
class ClangdServer {
public:
/// Creates a new ClangdServer instance.
/// To process parsing requests asynchronously, ClangdServer will spawn \p
/// AsyncThreadsCount worker threads. However, if \p AsyncThreadsCount is 0,
/// all requests will be processed on the calling thread.
///
/// ClangdServer uses \p FSProvider to get an instance of vfs::FileSystem for
/// each parsing request. Results of code completion and diagnostics also
/// include a tag, that \p FSProvider returns along with the vfs::FileSystem.
///
/// The value of \p ResourceDir will be used to search for internal headers
/// (overriding defaults and -resource-dir compiler flag). If \p ResourceDir
/// is None, ClangdServer will call CompilerInvocation::GetResourcePath() to
/// obtain the standard resource directory.
///
/// ClangdServer uses \p CDB to obtain compilation arguments for parsing. Note
/// that ClangdServer only obtains compilation arguments once for each newly
/// added file (i.e., when processing a first call to addDocument) and reuses
/// those arguments for subsequent reparses. However, ClangdServer will check
/// if compilation arguments changed on calls to forceReparse().
///
/// After each parsing request finishes, ClangdServer reports diagnostics to
/// \p DiagConsumer. Note that a callback to \p DiagConsumer happens on a
/// worker thread. Therefore, instances of \p DiagConsumer must properly
/// synchronize access to shared state.
///
/// \p StorePreamblesInMemory defines whether the Preambles generated by
/// clangd are stored in-memory or on disk.
///
/// If \p BuildDynamicSymbolIndex is true, ClangdServer builds a dynamic
/// in-memory index for symbols in all opened files and uses the index to
/// augment code completion results.
///
/// If \p StaticIdx is set, ClangdServer uses the index for global code
/// completion.
ClangdServer(GlobalCompilationDatabase &CDB,
DiagnosticsConsumer &DiagConsumer,
FileSystemProvider &FSProvider, unsigned AsyncThreadsCount,
bool StorePreamblesInMemory,
bool BuildDynamicSymbolIndex = false,
SymbolIndex *StaticIdx = nullptr,
llvm::Optional<StringRef> ResourceDir = llvm::None);
/// Set the root path of the workspace.
void setRootPath(PathRef RootPath);
/// Add a \p File to the list of tracked C++ files or update the contents if
/// \p File is already tracked. Also schedules parsing of the AST for it on a
/// separate thread. When the parsing is complete, DiagConsumer passed in
/// constructor will receive onDiagnosticsReady callback.
/// \return A future that will become ready when the rebuild (including
/// diagnostics) is finished.
std::future<Context> addDocument(Context Ctx, PathRef File,
StringRef Contents);
/// Remove \p File from list of tracked files, schedule a request to free
/// resources associated with it.
/// \return A future that will become ready when the file is removed and all
/// associated resources are freed.
std::future<Context> removeDocument(Context Ctx, PathRef File);
/// Force \p File to be reparsed using the latest contents.
/// Will also check if CompileCommand, provided by GlobalCompilationDatabase
/// for \p File has changed. If it has, will remove currently stored Preamble
/// and AST and rebuild them from scratch.
std::future<Context> forceReparse(Context Ctx, PathRef File);
/// DEPRECATED. Please use a callback-based version, this API is deprecated
/// and will soon be removed.
///
/// Run code completion for \p File at \p Pos.
///
/// Request is processed asynchronously. You can use the returned future to
/// wait for the results of the async request.
///
/// If \p OverridenContents is not None, they will used only for code
/// completion, i.e. no diagnostics update will be scheduled and a draft for
/// \p File will not be updated. If \p OverridenContents is None, contents of
/// the current draft for \p File will be used. If \p UsedFS is non-null, it
/// will be overwritten by vfs::FileSystem used for completion.
///
/// This method should only be called for currently tracked files. However, it
/// is safe to call removeDocument for \p File after this method returns, even
/// while returned future is not yet ready.
std::future<std::pair<Context, Tagged<CompletionList>>>
codeComplete(Context Ctx, PathRef File, Position Pos,
const clangd::CodeCompleteOptions &Opts,
llvm::Optional<StringRef> OverridenContents = llvm::None,
IntrusiveRefCntPtr<vfs::FileSystem> *UsedFS = nullptr);
/// A version of `codeComplete` that runs \p Callback on the processing thread
/// when codeComplete results become available.
void
codeComplete(Context Ctx, PathRef File, Position Pos,
const clangd::CodeCompleteOptions &Opts,
UniqueFunction<void(Context, Tagged<CompletionList>)> Callback,
llvm::Optional<StringRef> OverridenContents = llvm::None,
IntrusiveRefCntPtr<vfs::FileSystem> *UsedFS = nullptr);
/// Provide signature help for \p File at \p Pos. If \p OverridenContents is
/// not None, they will used only for signature help, i.e. no diagnostics
/// update will be scheduled and a draft for \p File will not be updated. If
/// \p OverridenContents is None, contents of the current draft for \p File
/// will be used. If \p UsedFS is non-null, it will be overwritten by
/// vfs::FileSystem used for signature help. This method should only be called
/// for currently tracked files.
llvm::Expected<Tagged<SignatureHelp>>
signatureHelp(const Context &Ctx, PathRef File, Position Pos,
llvm::Optional<StringRef> OverridenContents = llvm::None,
IntrusiveRefCntPtr<vfs::FileSystem> *UsedFS = nullptr);
/// Get definition of symbol at a specified \p Line and \p Column in \p File.
llvm::Expected<Tagged<std::vector<Location>>>
findDefinitions(const Context &Ctx, PathRef File, Position Pos);
/// Helper function that returns a path to the corresponding source file when
/// given a header file and vice versa.
llvm::Optional<Path> switchSourceHeader(PathRef Path);
/// Get document highlights for a given position.
llvm::Expected<Tagged<std::vector<DocumentHighlight>>>
findDocumentHighlights(const Context &Ctx, PathRef File, Position Pos);
/// Run formatting for \p Rng inside \p File with content \p Code.
llvm::Expected<tooling::Replacements> formatRange(StringRef Code,
PathRef File, Range Rng);
/// Run formatting for the whole \p File with content \p Code.
llvm::Expected<tooling::Replacements> formatFile(StringRef Code,
PathRef File);
/// Run formatting after a character was typed at \p Pos in \p File with
/// content \p Code.
llvm::Expected<tooling::Replacements>
formatOnType(StringRef Code, PathRef File, Position Pos);
/// Rename all occurrences of the symbol at the \p Pos in \p File to
/// \p NewName.
Expected<std::vector<tooling::Replacement>> rename(const Context &Ctx,
PathRef File, Position Pos,
llvm::StringRef NewName);
/// Gets current document contents for \p File. Returns None if \p File is not
/// currently tracked.
/// FIXME(ibiryukov): This function is here to allow offset-to-Position
/// conversions in outside code, maybe there's a way to get rid of it.
llvm::Optional<std::string> getDocument(PathRef File);
/// Only for testing purposes.
/// Waits until all requests to worker thread are finished and dumps AST for
/// \p File. \p File must be in the list of added documents.
std::string dumpAST(PathRef File);
/// Called when an event occurs for a watched file in the workspace.
void onFileEvent(const DidChangeWatchedFilesParams &Params);
private:
/// FIXME: This stats several files to find a .clang-format file. I/O can be
/// slow. Think of a way to cache this.
llvm::Expected<tooling::Replacements>
formatCode(llvm::StringRef Code, PathRef File,
ArrayRef<tooling::Range> Ranges);
std::future<Context>
scheduleReparseAndDiags(Context Ctx, PathRef File, VersionedDraft Contents,
std::shared_ptr<CppFile> Resources,
Tagged<IntrusiveRefCntPtr<vfs::FileSystem>> TaggedFS,
bool AllowCachedCompileFlags);
std::future<Context>
scheduleCancelRebuild(Context Ctx, std::shared_ptr<CppFile> Resources);
GlobalCompilationDatabase &CDB;
DiagnosticsConsumer &DiagConsumer;
FileSystemProvider &FSProvider;
DraftStore DraftMgr;
// The index used to look up symbols. This could be:
// - null (all index functionality is optional)
// - the dynamic index owned by ClangdServer (FileIdx)
// - the static index passed to the constructor
// - a merged view of a static and dynamic index (MergedIndex)
SymbolIndex *Index;
// If present, an up-to-date of symbols in open files. Read via Index.
std::unique_ptr<FileIndex> FileIdx;
// If present, a merged view of FileIdx and an external index. Read via Index.
std::unique_ptr<SymbolIndex> MergedIndex;
CppFileCollection Units;
std::string ResourceDir;
// If set, this represents the workspace path.
llvm::Optional<std::string> RootPath;
std::shared_ptr<PCHContainerOperations> PCHs;
bool StorePreamblesInMemory;
/// Used to serialize diagnostic callbacks.
/// FIXME(ibiryukov): get rid of an extra map and put all version counters
/// into CppFile.
std::mutex DiagnosticsMutex;
/// Maps from a filename to the latest version of reported diagnostics.
llvm::StringMap<DocVersion> ReportedDiagnosticVersions;
// WorkScheduler has to be the last member, because its destructor has to be
// called before all other members to stop the worker thread that references
// ClangdServer
ClangdScheduler WorkScheduler;
};
} // namespace clangd
} // namespace clang
#endif