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

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//===--- ClangdLSPServer.cpp - LSP server ------------------------*- 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 "ClangdLSPServer.h"
#include "CodeComplete.h"
#include "Diagnostics.h"
#include "DraftStore.h"
#include "GlobalCompilationDatabase.h"
#include "Protocol.h"
#include "SemanticHighlighting.h"
#include "SourceCode.h"
#include "TUScheduler.h"
#include "URI.h"
#include "refactor/Tweak.h"
#include "support/Context.h"
#include "support/Trace.h"
#include "clang/Basic/Version.h"
#include "clang/Tooling/Core/Replacement.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/ADT/Optional.h"
#include "llvm/ADT/ScopeExit.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/ADT/iterator_range.h"
#include "llvm/Support/Errc.h"
#include "llvm/Support/Error.h"
#include "llvm/Support/FormatVariadic.h"
#include "llvm/Support/JSON.h"
#include "llvm/Support/Path.h"
#include "llvm/Support/SHA1.h"
#include "llvm/Support/ScopedPrinter.h"
#include <cstddef>
#include <memory>
#include <mutex>
#include <string>
#include <vector>
namespace clang {
namespace clangd {
namespace {
// Tracks end-to-end latency of high level lsp calls. Measurements are in
// seconds.
constexpr trace::Metric LSPLatency("lsp_latency", trace::Metric::Distribution,
"method_name");
// LSP defines file versions as numbers that increase.
// ClangdServer treats them as opaque and therefore uses strings instead.
std::string encodeVersion(int64_t LSPVersion) {
return llvm::to_string(LSPVersion);
}
llvm::Optional<int64_t> decodeVersion(llvm::StringRef Encoded) {
int64_t Result;
if (llvm::to_integer(Encoded, Result, 10))
return Result;
else if (!Encoded.empty()) // Empty can be e.g. diagnostics on close.
elog("unexpected non-numeric version {0}", Encoded);
return llvm::None;
}
/// Transforms a tweak into a code action that would apply it if executed.
/// EXPECTS: T.prepare() was called and returned true.
CodeAction toCodeAction(const ClangdServer::TweakRef &T, const URIForFile &File,
Range Selection) {
CodeAction CA;
CA.title = T.Title;
switch (T.Intent) {
case Tweak::Refactor:
CA.kind = std::string(CodeAction::REFACTOR_KIND);
break;
case Tweak::Info:
CA.kind = std::string(CodeAction::INFO_KIND);
break;
}
// This tweak may have an expensive second stage, we only run it if the user
// actually chooses it in the UI. We reply with a command that would run the
// corresponding tweak.
// FIXME: for some tweaks, computing the edits is cheap and we could send them
// directly.
CA.command.emplace();
CA.command->title = T.Title;
CA.command->command = std::string(Command::CLANGD_APPLY_TWEAK);
CA.command->tweakArgs.emplace();
CA.command->tweakArgs->file = File;
CA.command->tweakArgs->tweakID = T.ID;
CA.command->tweakArgs->selection = Selection;
return CA;
}
void adjustSymbolKinds(llvm::MutableArrayRef<DocumentSymbol> Syms,
SymbolKindBitset Kinds) {
for (auto &S : Syms) {
S.kind = adjustKindToCapability(S.kind, Kinds);
adjustSymbolKinds(S.children, Kinds);
}
}
SymbolKindBitset defaultSymbolKinds() {
SymbolKindBitset Defaults;
for (size_t I = SymbolKindMin; I <= static_cast<size_t>(SymbolKind::Array);
++I)
Defaults.set(I);
return Defaults;
}
CompletionItemKindBitset defaultCompletionItemKinds() {
CompletionItemKindBitset Defaults;
for (size_t I = CompletionItemKindMin;
I <= static_cast<size_t>(CompletionItemKind::Reference); ++I)
Defaults.set(I);
return Defaults;
}
// Build a lookup table (HighlightingKind => {TextMate Scopes}), which is sent
// to the LSP client.
std::vector<std::vector<std::string>> buildHighlightScopeLookupTable() {
std::vector<std::vector<std::string>> LookupTable;
// HighlightingKind is using as the index.
for (int KindValue = 0; KindValue <= (int)HighlightingKind::LastKind;
++KindValue)
LookupTable.push_back(
{std::string(toTextMateScope((HighlightingKind)(KindValue)))});
return LookupTable;
}
// Makes sure edits in \p FE are applicable to latest file contents reported by
// editor. If not generates an error message containing information about files
// that needs to be saved.
llvm::Error validateEdits(const DraftStore &DraftMgr, const FileEdits &FE) {
size_t InvalidFileCount = 0;
llvm::StringRef LastInvalidFile;
for (const auto &It : FE) {
if (auto Draft = DraftMgr.getDraft(It.first())) {
// If the file is open in user's editor, make sure the version we
// saw and current version are compatible as this is the text that
// will be replaced by editors.
if (!It.second.canApplyTo(Draft->Contents)) {
++InvalidFileCount;
LastInvalidFile = It.first();
}
}
}
if (!InvalidFileCount)
return llvm::Error::success();
if (InvalidFileCount == 1)
return llvm::createStringError(llvm::inconvertibleErrorCode(),
"File must be saved first: " +
LastInvalidFile);
return llvm::createStringError(
llvm::inconvertibleErrorCode(),
"Files must be saved first: " + LastInvalidFile + " (and " +
llvm::to_string(InvalidFileCount - 1) + " others)");
}
} // namespace
// MessageHandler dispatches incoming LSP messages.
// It handles cross-cutting concerns:
// - serializes/deserializes protocol objects to JSON
// - logging of inbound messages
// - cancellation handling
// - basic call tracing
// MessageHandler ensures that initialize() is called before any other handler.
class ClangdLSPServer::MessageHandler : public Transport::MessageHandler {
public:
MessageHandler(ClangdLSPServer &Server) : Server(Server) {}
bool onNotify(llvm::StringRef Method, llvm::json::Value Params) override {
WithContext HandlerContext(handlerContext());
log("<-- {0}", Method);
if (Method == "exit")
return false;
if (!Server.Server)
elog("Notification {0} before initialization", Method);
else if (Method == "$/cancelRequest")
onCancel(std::move(Params));
else if (auto Handler = Notifications.lookup(Method))
Handler(std::move(Params));
else
log("unhandled notification {0}", Method);
return true;
}
bool onCall(llvm::StringRef Method, llvm::json::Value Params,
llvm::json::Value ID) override {
WithContext HandlerContext(handlerContext());
// Calls can be canceled by the client. Add cancellation context.
WithContext WithCancel(cancelableRequestContext(ID));
trace::Span Tracer(Method, LSPLatency);
SPAN_ATTACH(Tracer, "Params", Params);
ReplyOnce Reply(ID, Method, &Server, Tracer.Args);
log("<-- {0}({1})", Method, ID);
if (!Server.Server && Method != "initialize") {
elog("Call {0} before initialization.", Method);
Reply(llvm::make_error<LSPError>("server not initialized",
ErrorCode::ServerNotInitialized));
} else if (auto Handler = Calls.lookup(Method))
Handler(std::move(Params), std::move(Reply));
else
Reply(llvm::make_error<LSPError>("method not found",
ErrorCode::MethodNotFound));
return true;
}
bool onReply(llvm::json::Value ID,
llvm::Expected<llvm::json::Value> Result) override {
WithContext HandlerContext(handlerContext());
Callback<llvm::json::Value> ReplyHandler = nullptr;
if (auto IntID = ID.getAsInteger()) {
std::lock_guard<std::mutex> Mutex(CallMutex);
// Find a corresponding callback for the request ID;
for (size_t Index = 0; Index < ReplyCallbacks.size(); ++Index) {
if (ReplyCallbacks[Index].first == *IntID) {
ReplyHandler = std::move(ReplyCallbacks[Index].second);
ReplyCallbacks.erase(ReplyCallbacks.begin() +
Index); // remove the entry
break;
}
}
}
if (!ReplyHandler) {
// No callback being found, use a default log callback.
ReplyHandler = [&ID](llvm::Expected<llvm::json::Value> Result) {
elog("received a reply with ID {0}, but there was no such call", ID);
if (!Result)
llvm::consumeError(Result.takeError());
};
}
// Log and run the reply handler.
if (Result) {
log("<-- reply({0})", ID);
ReplyHandler(std::move(Result));
} else {
auto Err = Result.takeError();
log("<-- reply({0}) error: {1}", ID, Err);
ReplyHandler(std::move(Err));
}
return true;
}
// Bind an LSP method name to a call.
template <typename Param, typename Result>
void bind(const char *Method,
void (ClangdLSPServer::*Handler)(const Param &, Callback<Result>)) {
Calls[Method] = [Method, Handler, this](llvm::json::Value RawParams,
ReplyOnce Reply) {
Param P;
if (fromJSON(RawParams, P)) {
(Server.*Handler)(P, std::move(Reply));
} else {
elog("Failed to decode {0} request.", Method);
Reply(llvm::make_error<LSPError>("failed to decode request",
ErrorCode::InvalidRequest));
}
};
}
// Bind a reply callback to a request. The callback will be invoked when
// clangd receives the reply from the LSP client.
// Return a call id of the request.
llvm::json::Value bindReply(Callback<llvm::json::Value> Reply) {
llvm::Optional<std::pair<int, Callback<llvm::json::Value>>> OldestCB;
int ID;
{
std::lock_guard<std::mutex> Mutex(CallMutex);
ID = NextCallID++;
ReplyCallbacks.emplace_back(ID, std::move(Reply));
// If the queue overflows, we assume that the client didn't reply the
// oldest request, and run the corresponding callback which replies an
// error to the client.
if (ReplyCallbacks.size() > MaxReplayCallbacks) {
elog("more than {0} outstanding LSP calls, forgetting about {1}",
MaxReplayCallbacks, ReplyCallbacks.front().first);
OldestCB = std::move(ReplyCallbacks.front());
ReplyCallbacks.pop_front();
}
}
if (OldestCB)
OldestCB->second(llvm::createStringError(
llvm::inconvertibleErrorCode(),
llvm::formatv("failed to receive a client reply for request ({0})",
OldestCB->first)));
return ID;
}
// Bind an LSP method name to a notification.
template <typename Param>
void bind(const char *Method,
void (ClangdLSPServer::*Handler)(const Param &)) {
Notifications[Method] = [Method, Handler,
this](llvm::json::Value RawParams) {
Param P;
if (!fromJSON(RawParams, P)) {
elog("Failed to decode {0} request.", Method);
return;
}
trace::Span Tracer(Method, LSPLatency);
SPAN_ATTACH(Tracer, "Params", RawParams);
(Server.*Handler)(P);
};
}
private:
// Function object to reply to an LSP call.
// Each instance must be called exactly once, otherwise:
// - the bug is logged, and (in debug mode) an assert will fire
// - if there was no reply, an error reply is sent
// - if there were multiple replies, only the first is sent
class ReplyOnce {
std::atomic<bool> Replied = {false};
std::chrono::steady_clock::time_point Start;
llvm::json::Value ID;
std::string Method;
ClangdLSPServer *Server; // Null when moved-from.
llvm::json::Object *TraceArgs;
public:
ReplyOnce(const llvm::json::Value &ID, llvm::StringRef Method,
ClangdLSPServer *Server, llvm::json::Object *TraceArgs)
: Start(std::chrono::steady_clock::now()), ID(ID), Method(Method),
Server(Server), TraceArgs(TraceArgs) {
assert(Server);
}
ReplyOnce(ReplyOnce &&Other)
: Replied(Other.Replied.load()), Start(Other.Start),
ID(std::move(Other.ID)), Method(std::move(Other.Method)),
Server(Other.Server), TraceArgs(Other.TraceArgs) {
Other.Server = nullptr;
}
ReplyOnce &operator=(ReplyOnce &&) = delete;
ReplyOnce(const ReplyOnce &) = delete;
ReplyOnce &operator=(const ReplyOnce &) = delete;
~ReplyOnce() {
// There's one legitimate reason to never reply to a request: clangd's
// request handler send a call to the client (e.g. applyEdit) and the
// client never replied. In this case, the ReplyOnce is owned by
// ClangdLSPServer's reply callback table and is destroyed along with the
// server. We don't attempt to send a reply in this case, there's little
// to be gained from doing so.
if (Server && !Server->IsBeingDestroyed && !Replied) {
elog("No reply to message {0}({1})", Method, ID);
assert(false && "must reply to all calls!");
(*this)(llvm::make_error<LSPError>("server failed to reply",
ErrorCode::InternalError));
}
}
void operator()(llvm::Expected<llvm::json::Value> Reply) {
assert(Server && "moved-from!");
if (Replied.exchange(true)) {
elog("Replied twice to message {0}({1})", Method, ID);
assert(false && "must reply to each call only once!");
return;
}
auto Duration = std::chrono::steady_clock::now() - Start;
if (Reply) {
log("--> reply:{0}({1}) {2:ms}", Method, ID, Duration);
if (TraceArgs)
(*TraceArgs)["Reply"] = *Reply;
std::lock_guard<std::mutex> Lock(Server->TranspWriter);
Server->Transp.reply(std::move(ID), std::move(Reply));
} else {
llvm::Error Err = Reply.takeError();
log("--> reply:{0}({1}) {2:ms}, error: {3}", Method, ID, Duration, Err);
if (TraceArgs)
(*TraceArgs)["Error"] = llvm::to_string(Err);
std::lock_guard<std::mutex> Lock(Server->TranspWriter);
Server->Transp.reply(std::move(ID), std::move(Err));
}
}
};
llvm::StringMap<std::function<void(llvm::json::Value)>> Notifications;
llvm::StringMap<std::function<void(llvm::json::Value, ReplyOnce)>> Calls;
// Method calls may be cancelled by ID, so keep track of their state.
// This needs a mutex: handlers may finish on a different thread, and that's
// when we clean up entries in the map.
mutable std::mutex RequestCancelersMutex;
llvm::StringMap<std::pair<Canceler, /*Cookie*/ unsigned>> RequestCancelers;
unsigned NextRequestCookie = 0; // To disambiguate reused IDs, see below.
void onCancel(const llvm::json::Value &Params) {
const llvm::json::Value *ID = nullptr;
if (auto *O = Params.getAsObject())
ID = O->get("id");
if (!ID) {
elog("Bad cancellation request: {0}", Params);
return;
}
auto StrID = llvm::to_string(*ID);
std::lock_guard<std::mutex> Lock(RequestCancelersMutex);
auto It = RequestCancelers.find(StrID);
if (It != RequestCancelers.end())
It->second.first(); // Invoke the canceler.
}
Context handlerContext() const {
return Context::current().derive(
kCurrentOffsetEncoding,
Server.NegotiatedOffsetEncoding.getValueOr(OffsetEncoding::UTF16));
}
// We run cancelable requests in a context that does two things:
// - allows cancellation using RequestCancelers[ID]
// - cleans up the entry in RequestCancelers when it's no longer needed
// If a client reuses an ID, the last wins and the first cannot be canceled.
Context cancelableRequestContext(const llvm::json::Value &ID) {
auto Task = cancelableTask(
/*Reason=*/static_cast<int>(ErrorCode::RequestCancelled));
auto StrID = llvm::to_string(ID); // JSON-serialize ID for map key.
auto Cookie = NextRequestCookie++; // No lock, only called on main thread.
{
std::lock_guard<std::mutex> Lock(RequestCancelersMutex);
RequestCancelers[StrID] = {std::move(Task.second), Cookie};
}
// When the request ends, we can clean up the entry we just added.
// The cookie lets us check that it hasn't been overwritten due to ID
// reuse.
return Task.first.derive(llvm::make_scope_exit([this, StrID, Cookie] {
std::lock_guard<std::mutex> Lock(RequestCancelersMutex);
auto It = RequestCancelers.find(StrID);
if (It != RequestCancelers.end() && It->second.second == Cookie)
RequestCancelers.erase(It);
}));
}
// The maximum number of callbacks held in clangd.
//
// We bound the maximum size to the pending map to prevent memory leakage
// for cases where LSP clients don't reply for the request.
// This has to go after RequestCancellers and RequestCancellersMutex since it
// can contain a callback that has a cancelable context.
static constexpr int MaxReplayCallbacks = 100;
mutable std::mutex CallMutex;
int NextCallID = 0; /* GUARDED_BY(CallMutex) */
std::deque<std::pair</*RequestID*/ int,
/*ReplyHandler*/ Callback<llvm::json::Value>>>
ReplyCallbacks; /* GUARDED_BY(CallMutex) */
ClangdLSPServer &Server;
};
constexpr int ClangdLSPServer::MessageHandler::MaxReplayCallbacks;
// call(), notify(), and reply() wrap the Transport, adding logging and locking.
void ClangdLSPServer::callRaw(StringRef Method, llvm::json::Value Params,
Callback<llvm::json::Value> CB) {
auto ID = MsgHandler->bindReply(std::move(CB));
log("--> {0}({1})", Method, ID);
std::lock_guard<std::mutex> Lock(TranspWriter);
Transp.call(Method, std::move(Params), ID);
}
void ClangdLSPServer::notify(llvm::StringRef Method, llvm::json::Value Params) {
log("--> {0}", Method);
std::lock_guard<std::mutex> Lock(TranspWriter);
Transp.notify(Method, std::move(Params));
}
static std::vector<llvm::StringRef> semanticTokenTypes() {
std::vector<llvm::StringRef> Types;
for (unsigned I = 0; I <= static_cast<unsigned>(HighlightingKind::LastKind);
++I)
Types.push_back(toSemanticTokenType(static_cast<HighlightingKind>(I)));
return Types;
}
void ClangdLSPServer::onInitialize(const InitializeParams &Params,
Callback<llvm::json::Value> Reply) {
// Determine character encoding first as it affects constructed ClangdServer.
if (Params.capabilities.offsetEncoding && !NegotiatedOffsetEncoding) {
NegotiatedOffsetEncoding = OffsetEncoding::UTF16; // fallback
for (OffsetEncoding Supported : *Params.capabilities.offsetEncoding)
if (Supported != OffsetEncoding::UnsupportedEncoding) {
NegotiatedOffsetEncoding = Supported;
break;
}
}
ClangdServerOpts.TheiaSemanticHighlighting =
Params.capabilities.TheiaSemanticHighlighting;
if (Params.capabilities.TheiaSemanticHighlighting &&
Params.capabilities.SemanticTokens) {
log("Client supports legacy semanticHighlights notification and standard "
"semanticTokens request, choosing the latter (no notifications).");
ClangdServerOpts.TheiaSemanticHighlighting = false;
}
if (Params.rootUri && *Params.rootUri)
ClangdServerOpts.WorkspaceRoot = std::string(Params.rootUri->file());
else if (Params.rootPath && !Params.rootPath->empty())
ClangdServerOpts.WorkspaceRoot = *Params.rootPath;
if (Server)
return Reply(llvm::make_error<LSPError>("server already initialized",
ErrorCode::InvalidRequest));
if (const auto &Dir = Params.initializationOptions.compilationDatabasePath)
CompileCommandsDir = Dir;
if (UseDirBasedCDB) {
BaseCDB = std::make_unique<DirectoryBasedGlobalCompilationDatabase>(
CompileCommandsDir);
BaseCDB = getQueryDriverDatabase(
llvm::makeArrayRef(ClangdServerOpts.QueryDriverGlobs),
std::move(BaseCDB));
}
auto Mangler = CommandMangler::detect();
if (ClangdServerOpts.ResourceDir)
Mangler.ResourceDir = *ClangdServerOpts.ResourceDir;
CDB.emplace(BaseCDB.get(), Params.initializationOptions.fallbackFlags,
tooling::ArgumentsAdjuster(std::move(Mangler)));
{
// Switch caller's context with LSPServer's background context. Since we
// rather want to propagate information from LSPServer's context into the
// Server, CDB, etc.
WithContext MainContext(BackgroundContext.clone());
llvm::Optional<WithContextValue> WithOffsetEncoding;
if (NegotiatedOffsetEncoding)
WithOffsetEncoding.emplace(kCurrentOffsetEncoding,
*NegotiatedOffsetEncoding);
Server.emplace(*CDB, TFS, ClangdServerOpts,
static_cast<ClangdServer::Callbacks *>(this));
}
applyConfiguration(Params.initializationOptions.ConfigSettings);
CCOpts.EnableSnippets = Params.capabilities.CompletionSnippets;
CCOpts.IncludeFixIts = Params.capabilities.CompletionFixes;
if (!CCOpts.BundleOverloads.hasValue())
CCOpts.BundleOverloads = Params.capabilities.HasSignatureHelp;
CCOpts.DocumentationFormat =
Params.capabilities.CompletionDocumentationFormat;
DiagOpts.EmbedFixesInDiagnostics = Params.capabilities.DiagnosticFixes;
DiagOpts.SendDiagnosticCategory = Params.capabilities.DiagnosticCategory;
DiagOpts.EmitRelatedLocations =
Params.capabilities.DiagnosticRelatedInformation;
if (Params.capabilities.WorkspaceSymbolKinds)
SupportedSymbolKinds |= *Params.capabilities.WorkspaceSymbolKinds;
if (Params.capabilities.CompletionItemKinds)
SupportedCompletionItemKinds |= *Params.capabilities.CompletionItemKinds;
SupportsCodeAction = Params.capabilities.CodeActionStructure;
SupportsHierarchicalDocumentSymbol =
Params.capabilities.HierarchicalDocumentSymbol;
SupportFileStatus = Params.initializationOptions.FileStatus;
HoverContentFormat = Params.capabilities.HoverContentFormat;
SupportsOffsetsInSignatureHelp = Params.capabilities.OffsetsInSignatureHelp;
if (Params.capabilities.WorkDoneProgress)
BackgroundIndexProgressState = BackgroundIndexProgress::Empty;
BackgroundIndexSkipCreate = Params.capabilities.ImplicitProgressCreation;
// Per LSP, renameProvider can be either boolean or RenameOptions.
// RenameOptions will be specified if the client states it supports prepare.
llvm::json::Value RenameProvider =
llvm::json::Object{{"prepareProvider", true}};
if (!Params.capabilities.RenamePrepareSupport) // Only boolean allowed per LSP
RenameProvider = true;
// Per LSP, codeActionProvide can be either boolean or CodeActionOptions.
// CodeActionOptions is only valid if the client supports action literal
// via textDocument.codeAction.codeActionLiteralSupport.
llvm::json::Value CodeActionProvider = true;
if (Params.capabilities.CodeActionStructure)
CodeActionProvider = llvm::json::Object{
{"codeActionKinds",
{CodeAction::QUICKFIX_KIND, CodeAction::REFACTOR_KIND,
CodeAction::INFO_KIND}}};
llvm::json::Object Result{
{{"serverInfo",
llvm::json::Object{{"name", "clangd"},
{"version", getClangToolFullVersion("clangd")}}},
{"capabilities",
llvm::json::Object{
{"textDocumentSync",
llvm::json::Object{
{"openClose", true},
{"change", (int)TextDocumentSyncKind::Incremental},
{"save", true},
}},
{"documentFormattingProvider", true},
{"documentRangeFormattingProvider", true},
{"documentOnTypeFormattingProvider",
llvm::json::Object{
{"firstTriggerCharacter", "\n"},
{"moreTriggerCharacter", {}},
}},
{"codeActionProvider", std::move(CodeActionProvider)},
{"completionProvider",
llvm::json::Object{
{"allCommitCharacters", " \t()[]{}<>:;,+-/*%^&#?.=\"'|"},
{"resolveProvider", false},
// We do extra checks, e.g. that > is part of ->.
{"triggerCharacters", {".", "<", ">", ":", "\"", "/"}},
}},
{"semanticTokensProvider",
llvm::json::Object{
{"full", llvm::json::Object{{"delta", true}}},
{"range", false},
{"legend",
llvm::json::Object{{"tokenTypes", semanticTokenTypes()},
{"tokenModifiers", llvm::json::Array()}}},
}},
{"signatureHelpProvider",
llvm::json::Object{
{"triggerCharacters", {"(", ","}},
}},
{"declarationProvider", true},
{"definitionProvider", true},
{"documentHighlightProvider", true},
{"documentLinkProvider",
llvm::json::Object{
{"resolveProvider", false},
}},
{"hoverProvider", true},
{"renameProvider", std::move(RenameProvider)},
{"selectionRangeProvider", true},
{"documentSymbolProvider", true},
{"workspaceSymbolProvider", true},
{"referencesProvider", true},
{"executeCommandProvider",
llvm::json::Object{
{"commands",
{ExecuteCommandParams::CLANGD_APPLY_FIX_COMMAND,
ExecuteCommandParams::CLANGD_APPLY_TWEAK}},
}},
{"typeHierarchyProvider", true},
}}}};
if (NegotiatedOffsetEncoding)
Result["offsetEncoding"] = *NegotiatedOffsetEncoding;
if (ClangdServerOpts.TheiaSemanticHighlighting)
Result.getObject("capabilities")
->insert(
{"semanticHighlighting",
llvm::json::Object{{"scopes", buildHighlightScopeLookupTable()}}});
if (ClangdServerOpts.FoldingRanges)
Result.getObject("capabilities")->insert({"foldingRangeProvider", true});
Reply(std::move(Result));
}
void ClangdLSPServer::onInitialized(const InitializedParams &Params) {}
void ClangdLSPServer::onShutdown(const ShutdownParams &Params,
Callback<std::nullptr_t> Reply) {
// Do essentially nothing, just say we're ready to exit.
ShutdownRequestReceived = true;
Reply(nullptr);
}
2018-11-27 00:00:11 +08:00
// sync is a clangd extension: it blocks until all background work completes.
// It blocks the calling thread, so no messages are processed until it returns!
void ClangdLSPServer::onSync(const NoParams &Params,
Callback<std::nullptr_t> Reply) {
if (Server->blockUntilIdleForTest(/*TimeoutSeconds=*/60))
Reply(nullptr);
else
Reply(llvm::createStringError(llvm::inconvertibleErrorCode(),
"Not idle after a minute"));
2018-11-27 00:00:11 +08:00
}
void ClangdLSPServer::onDocumentDidOpen(
const DidOpenTextDocumentParams &Params) {
PathRef File = Params.textDocument.uri.file();
const std::string &Contents = Params.textDocument.text;
auto Version = DraftMgr.addDraft(File, Params.textDocument.version, Contents);
Server->addDocument(File, Contents, encodeVersion(Version),
WantDiagnostics::Yes);
}
void ClangdLSPServer::onDocumentDidChange(
const DidChangeTextDocumentParams &Params) {
auto WantDiags = WantDiagnostics::Auto;
if (Params.wantDiagnostics.hasValue())
WantDiags = Params.wantDiagnostics.getValue() ? WantDiagnostics::Yes
: WantDiagnostics::No;
PathRef File = Params.textDocument.uri.file();
llvm::Expected<DraftStore::Draft> Draft = DraftMgr.updateDraft(
File, Params.textDocument.version, Params.contentChanges);
if (!Draft) {
// If this fails, we are most likely going to be not in sync anymore with
// the client. It is better to remove the draft and let further operations
// fail rather than giving wrong results.
DraftMgr.removeDraft(File);
Server->removeDocument(File);
elog("Failed to update {0}: {1}", File, Draft.takeError());
return;
}
Server->addDocument(File, Draft->Contents, encodeVersion(Draft->Version),
WantDiags, Params.forceRebuild);
}
void ClangdLSPServer::onDocumentDidSave(
const DidSaveTextDocumentParams &Params) {
reparseOpenFilesIfNeeded([](llvm::StringRef) { return true; });
}
void ClangdLSPServer::onFileEvent(const DidChangeWatchedFilesParams &Params) {
// We could also reparse all open files here. However:
// - this could be frequent, and revalidating all the preambles isn't free
// - this is useful e.g. when switching git branches, but we're likely to see
// fresh headers but still have the old-branch main-file content
Server->onFileEvent(Params);
}
void ClangdLSPServer::onCommand(const ExecuteCommandParams &Params,
Callback<llvm::json::Value> Reply) {
auto ApplyEdit = [this](WorkspaceEdit WE, std::string SuccessMessage,
decltype(Reply) Reply) {
ApplyWorkspaceEditParams Edit;
Edit.edit = std::move(WE);
call<ApplyWorkspaceEditResponse>(
"workspace/applyEdit", std::move(Edit),
[Reply = std::move(Reply), SuccessMessage = std::move(SuccessMessage)](
llvm::Expected<ApplyWorkspaceEditResponse> Response) mutable {
if (!Response)
return Reply(Response.takeError());
if (!Response->applied) {
std::string Reason = Response->failureReason
? *Response->failureReason
: "unknown reason";
return Reply(llvm::createStringError(
llvm::inconvertibleErrorCode(),
("edits were not applied: " + Reason).c_str()));
}
return Reply(SuccessMessage);
});
};
if (Params.command == ExecuteCommandParams::CLANGD_APPLY_FIX_COMMAND &&
Params.workspaceEdit) {
// The flow for "apply-fix" :
// 1. We publish a diagnostic, including fixits
// 2. The user clicks on the diagnostic, the editor asks us for code actions
// 3. We send code actions, with the fixit embedded as context
// 4. The user selects the fixit, the editor asks us to apply it
// 5. We unwrap the changes and send them back to the editor
// 6. The editor applies the changes (applyEdit), and sends us a reply
// 7. We unwrap the reply and send a reply to the editor.
ApplyEdit(*Params.workspaceEdit, "Fix applied.", std::move(Reply));
} else if (Params.command == ExecuteCommandParams::CLANGD_APPLY_TWEAK &&
Params.tweakArgs) {
auto Code = DraftMgr.getDraft(Params.tweakArgs->file.file());
if (!Code)
return Reply(llvm::createStringError(
llvm::inconvertibleErrorCode(),
"trying to apply a code action for a non-added file"));
auto Action = [this, ApplyEdit, Reply = std::move(Reply),
File = Params.tweakArgs->file, Code = std::move(*Code)](
llvm::Expected<Tweak::Effect> R) mutable {
if (!R)
return Reply(R.takeError());
assert(R->ShowMessage ||
(!R->ApplyEdits.empty() && "tweak has no effect"));
if (R->ShowMessage) {
ShowMessageParams Msg;
Msg.message = *R->ShowMessage;
Msg.type = MessageType::Info;
notify("window/showMessage", Msg);
}
// When no edit is specified, make sure we Reply().
if (R->ApplyEdits.empty())
return Reply("Tweak applied.");
if (auto Err = validateEdits(DraftMgr, R->ApplyEdits))
return Reply(std::move(Err));
WorkspaceEdit WE;
WE.changes.emplace();
for (const auto &It : R->ApplyEdits) {
(*WE.changes)[URI::createFile(It.first()).toString()] =
It.second.asTextEdits();
}
// ApplyEdit will take care of calling Reply().
return ApplyEdit(std::move(WE), "Tweak applied.", std::move(Reply));
};
Server->applyTweak(Params.tweakArgs->file.file(),
Params.tweakArgs->selection, Params.tweakArgs->tweakID,
std::move(Action));
} else {
// We should not get here because ExecuteCommandParams would not have
// parsed in the first place and this handler should not be called. But if
// more commands are added, this will be here has a safe guard.
Reply(llvm::make_error<LSPError>(
llvm::formatv("Unsupported command \"{0}\".", Params.command).str(),
ErrorCode::InvalidParams));
}
}
void ClangdLSPServer::onWorkspaceSymbol(
const WorkspaceSymbolParams &Params,
Callback<std::vector<SymbolInformation>> Reply) {
Server->workspaceSymbols(
Params.query, CCOpts.Limit,
[Reply = std::move(Reply),
this](llvm::Expected<std::vector<SymbolInformation>> Items) mutable {
if (!Items)
return Reply(Items.takeError());
for (auto &Sym : *Items)
Sym.kind = adjustKindToCapability(Sym.kind, SupportedSymbolKinds);
Reply(std::move(*Items));
});
}
void ClangdLSPServer::onPrepareRename(const TextDocumentPositionParams &Params,
Callback<llvm::Optional<Range>> Reply) {
Server->prepareRename(Params.textDocument.uri.file(), Params.position,
RenameOpts, std::move(Reply));
}
void ClangdLSPServer::onRename(const RenameParams &Params,
Callback<WorkspaceEdit> Reply) {
Path File = std::string(Params.textDocument.uri.file());
if (!DraftMgr.getDraft(File))
return Reply(llvm::make_error<LSPError>(
"onRename called for non-added file", ErrorCode::InvalidParams));
Server->rename(
File, Params.position, Params.newName, RenameOpts,
[File, Params, Reply = std::move(Reply),
this](llvm::Expected<FileEdits> Edits) mutable {
if (!Edits)
return Reply(Edits.takeError());
if (auto Err = validateEdits(DraftMgr, *Edits))
return Reply(std::move(Err));
WorkspaceEdit Result;
Result.changes.emplace();
for (const auto &Rep : *Edits) {
(*Result.changes)[URI::createFile(Rep.first()).toString()] =
Rep.second.asTextEdits();
}
Reply(Result);
});
}
void ClangdLSPServer::onDocumentDidClose(
const DidCloseTextDocumentParams &Params) {
PathRef File = Params.textDocument.uri.file();
DraftMgr.removeDraft(File);
Server->removeDocument(File);
{
std::lock_guard<std::mutex> Lock(FixItsMutex);
FixItsMap.erase(File);
}
{
std::lock_guard<std::mutex> HLock(HighlightingsMutex);
FileToHighlightings.erase(File);
}
{
std::lock_guard<std::mutex> HLock(SemanticTokensMutex);
LastSemanticTokens.erase(File);
}
// clangd will not send updates for this file anymore, so we empty out the
// list of diagnostics shown on the client (e.g. in the "Problems" pane of
// VSCode). Note that this cannot race with actual diagnostics responses
// because removeDocument() guarantees no diagnostic callbacks will be
// executed after it returns.
PublishDiagnosticsParams Notification;
Notification.uri = URIForFile::canonicalize(File, /*TUPath=*/File);
publishDiagnostics(Notification);
}
void ClangdLSPServer::onDocumentOnTypeFormatting(
const DocumentOnTypeFormattingParams &Params,
Callback<std::vector<TextEdit>> Reply) {
auto File = Params.textDocument.uri.file();
auto Code = DraftMgr.getDraft(File);
if (!Code)
return Reply(llvm::make_error<LSPError>(
"onDocumentOnTypeFormatting called for non-added file",
ErrorCode::InvalidParams));
Server->formatOnType(File, Code->Contents, Params.position, Params.ch,
std::move(Reply));
}
void ClangdLSPServer::onDocumentRangeFormatting(
const DocumentRangeFormattingParams &Params,
Callback<std::vector<TextEdit>> Reply) {
auto File = Params.textDocument.uri.file();
auto Code = DraftMgr.getDraft(File);
if (!Code)
return Reply(llvm::make_error<LSPError>(
"onDocumentRangeFormatting called for non-added file",
ErrorCode::InvalidParams));
Server->formatRange(
File, Code->Contents, Params.range,
[Code = Code->Contents, Reply = std::move(Reply)](
llvm::Expected<tooling::Replacements> Result) mutable {
if (Result)
Reply(replacementsToEdits(Code, Result.get()));
else
Reply(Result.takeError());
});
}
void ClangdLSPServer::onDocumentFormatting(
const DocumentFormattingParams &Params,
Callback<std::vector<TextEdit>> Reply) {
auto File = Params.textDocument.uri.file();
auto Code = DraftMgr.getDraft(File);
if (!Code)
return Reply(llvm::make_error<LSPError>(
"onDocumentFormatting called for non-added file",
ErrorCode::InvalidParams));
Server->formatFile(File, Code->Contents,
[Code = Code->Contents, Reply = std::move(Reply)](
llvm::Expected<tooling::Replacements> Result) mutable {
if (Result)
Reply(replacementsToEdits(Code, Result.get()));
else
Reply(Result.takeError());
});
}
/// The functions constructs a flattened view of the DocumentSymbol hierarchy.
/// Used by the clients that do not support the hierarchical view.
static std::vector<SymbolInformation>
flattenSymbolHierarchy(llvm::ArrayRef<DocumentSymbol> Symbols,
const URIForFile &FileURI) {
std::vector<SymbolInformation> Results;
std::function<void(const DocumentSymbol &, llvm::StringRef)> Process =
[&](const DocumentSymbol &S, llvm::Optional<llvm::StringRef> ParentName) {
SymbolInformation SI;
SI.containerName = std::string(ParentName ? "" : *ParentName);
SI.name = S.name;
SI.kind = S.kind;
SI.location.range = S.range;
SI.location.uri = FileURI;
Results.push_back(std::move(SI));
std::string FullName =
!ParentName ? S.name : (ParentName->str() + "::" + S.name);
for (auto &C : S.children)
Process(C, /*ParentName=*/FullName);
};
for (auto &S : Symbols)
Process(S, /*ParentName=*/"");
return Results;
}
void ClangdLSPServer::onDocumentSymbol(const DocumentSymbolParams &Params,
Callback<llvm::json::Value> Reply) {
URIForFile FileURI = Params.textDocument.uri;
Server->documentSymbols(
Params.textDocument.uri.file(),
[this, FileURI, Reply = std::move(Reply)](
llvm::Expected<std::vector<DocumentSymbol>> Items) mutable {
if (!Items)
return Reply(Items.takeError());
adjustSymbolKinds(*Items, SupportedSymbolKinds);
if (SupportsHierarchicalDocumentSymbol)
return Reply(std::move(*Items));
else
return Reply(flattenSymbolHierarchy(*Items, FileURI));
});
}
void ClangdLSPServer::onFoldingRange(
const FoldingRangeParams &Params,
Callback<std::vector<FoldingRange>> Reply) {
Server->foldingRanges(Params.textDocument.uri.file(), std::move(Reply));
}
static llvm::Optional<Command> asCommand(const CodeAction &Action) {
Command Cmd;
if (Action.command && Action.edit)
return None; // Not representable. (We never emit these anyway).
if (Action.command) {
Cmd = *Action.command;
} else if (Action.edit) {
Cmd.command = std::string(Command::CLANGD_APPLY_FIX_COMMAND);
Cmd.workspaceEdit = *Action.edit;
} else {
return None;
}
Cmd.title = Action.title;
if (Action.kind && *Action.kind == CodeAction::QUICKFIX_KIND)
Cmd.title = "Apply fix: " + Cmd.title;
return Cmd;
}
void ClangdLSPServer::onCodeAction(const CodeActionParams &Params,
Callback<llvm::json::Value> Reply) {
URIForFile File = Params.textDocument.uri;
auto Code = DraftMgr.getDraft(File.file());
if (!Code)
return Reply(llvm::make_error<LSPError>(
"onCodeAction called for non-added file", ErrorCode::InvalidParams));
// We provide a code action for Fixes on the specified diagnostics.
std::vector<CodeAction> FixIts;
for (const Diagnostic &D : Params.context.diagnostics) {
for (auto &F : getFixes(File.file(), D)) {
FixIts.push_back(toCodeAction(F, Params.textDocument.uri));
FixIts.back().diagnostics = {D};
Adds a json::Expr type to represent intermediate JSON expressions. Summary: This form can be created with a nice clang-format-friendly literal syntax, and gets escaping right. It knows how to call unparse() on our Protocol types. All the places where we pass around JSON internally now use this type. Object properties are sorted (stored as std::map) and so serialization is canonicalized, with optional prettyprinting (triggered by a -pretty flag). This makes the lit tests much nicer to read and somewhat nicer to debug. (Unfortunately the completion tests use CHECK-DAG, which only has line-granularity, so pretty-printing is disabled there. In future we could make completion ordering deterministic, or switch to unittests). Compared to the current approach, it has some efficiencies like avoiding copies of string literals used as object keys, but is probably slower overall. I think the code/test quality benefits are worth it. This patch doesn't attempt to do anything about JSON *parsing*. It takes direction from the proposal in this doc[1], but is limited in scope and visibility, for now. I am of half a mind just to use Expr as the target of a parser, and maybe do a little string deduplication, but not bother with clever memory allocation. That would be simple, and fast enough for clangd... [1] https://docs.google.com/document/d/1OEF9IauWwNuSigZzvvbjc1cVS1uGHRyGTXaoy3DjqM4/edit +cc d0k so he can tell me not to use std::map. Reviewers: ioeric, malaperle Subscribers: bkramer, ilya-biryukov, mgorny, klimek Differential Revision: https://reviews.llvm.org/D39435 llvm-svn: 317486
2017-11-06 23:40:30 +08:00
}
}
// Now enumerate the semantic code actions.
auto ConsumeActions =
[Reply = std::move(Reply), File, Code = std::move(*Code),
Selection = Params.range, FixIts = std::move(FixIts), this](
llvm::Expected<std::vector<ClangdServer::TweakRef>> Tweaks) mutable {
if (!Tweaks)
return Reply(Tweaks.takeError());
std::vector<CodeAction> Actions = std::move(FixIts);
Actions.reserve(Actions.size() + Tweaks->size());
for (const auto &T : *Tweaks)
Actions.push_back(toCodeAction(T, File, Selection));
if (SupportsCodeAction)
return Reply(llvm::json::Array(Actions));
std::vector<Command> Commands;
for (const auto &Action : Actions) {
if (auto Command = asCommand(Action))
Commands.push_back(std::move(*Command));
}
return Reply(llvm::json::Array(Commands));
};
Server->enumerateTweaks(File.file(), Params.range, std::move(ConsumeActions));
}
void ClangdLSPServer::onCompletion(const CompletionParams &Params,
Callback<CompletionList> Reply) {
if (!shouldRunCompletion(Params)) {
// Clients sometimes auto-trigger completions in undesired places (e.g.
// 'a >^ '), we return empty results in those cases.
vlog("ignored auto-triggered completion, preceding char did not match");
return Reply(CompletionList());
}
Server->codeComplete(Params.textDocument.uri.file(), Params.position, CCOpts,
[Reply = std::move(Reply),
this](llvm::Expected<CodeCompleteResult> List) mutable {
if (!List)
return Reply(List.takeError());
CompletionList LSPList;
LSPList.isIncomplete = List->HasMore;
for (const auto &R : List->Completions) {
CompletionItem C = R.render(CCOpts);
C.kind = adjustKindToCapability(
C.kind, SupportedCompletionItemKinds);
LSPList.items.push_back(std::move(C));
}
return Reply(std::move(LSPList));
});
}
void ClangdLSPServer::onSignatureHelp(const TextDocumentPositionParams &Params,
Callback<SignatureHelp> Reply) {
Server->signatureHelp(Params.textDocument.uri.file(), Params.position,
[Reply = std::move(Reply), this](
llvm::Expected<SignatureHelp> Signature) mutable {
if (!Signature)
return Reply(Signature.takeError());
if (SupportsOffsetsInSignatureHelp)
return Reply(std::move(*Signature));
// Strip out the offsets from signature help for
// clients that only support string labels.
for (auto &SigInfo : Signature->signatures) {
for (auto &Param : SigInfo.parameters)
Param.labelOffsets.reset();
}
return Reply(std::move(*Signature));
});
}
// Go to definition has a toggle function: if def and decl are distinct, then
// the first press gives you the def, the second gives you the matching def.
// getToggle() returns the counterpart location that under the cursor.
//
// We return the toggled location alone (ignoring other symbols) to encourage
// editors to "bounce" quickly between locations, without showing a menu.
static Location *getToggle(const TextDocumentPositionParams &Point,
LocatedSymbol &Sym) {
// Toggle only makes sense with two distinct locations.
if (!Sym.Definition || *Sym.Definition == Sym.PreferredDeclaration)
return nullptr;
if (Sym.Definition->uri.file() == Point.textDocument.uri.file() &&
Sym.Definition->range.contains(Point.position))
return &Sym.PreferredDeclaration;
if (Sym.PreferredDeclaration.uri.file() == Point.textDocument.uri.file() &&
Sym.PreferredDeclaration.range.contains(Point.position))
return &*Sym.Definition;
return nullptr;
}
void ClangdLSPServer::onGoToDefinition(const TextDocumentPositionParams &Params,
Callback<std::vector<Location>> Reply) {
Server->locateSymbolAt(
Params.textDocument.uri.file(), Params.position,
[Params, Reply = std::move(Reply)](
llvm::Expected<std::vector<LocatedSymbol>> Symbols) mutable {
if (!Symbols)
return Reply(Symbols.takeError());
std::vector<Location> Defs;
for (auto &S : *Symbols) {
if (Location *Toggle = getToggle(Params, S))
return Reply(std::vector<Location>{std::move(*Toggle)});
Defs.push_back(S.Definition.getValueOr(S.PreferredDeclaration));
}
Reply(std::move(Defs));
});
}
void ClangdLSPServer::onGoToDeclaration(
const TextDocumentPositionParams &Params,
Callback<std::vector<Location>> Reply) {
Server->locateSymbolAt(
Params.textDocument.uri.file(), Params.position,
[Params, Reply = std::move(Reply)](
llvm::Expected<std::vector<LocatedSymbol>> Symbols) mutable {
if (!Symbols)
return Reply(Symbols.takeError());
std::vector<Location> Decls;
for (auto &S : *Symbols) {
if (Location *Toggle = getToggle(Params, S))
return Reply(std::vector<Location>{std::move(*Toggle)});
Decls.push_back(std::move(S.PreferredDeclaration));
}
Reply(std::move(Decls));
});
}
void ClangdLSPServer::onSwitchSourceHeader(
const TextDocumentIdentifier &Params,
Callback<llvm::Optional<URIForFile>> Reply) {
Server->switchSourceHeader(
Params.uri.file(),
[Reply = std::move(Reply),
Params](llvm::Expected<llvm::Optional<clangd::Path>> Path) mutable {
if (!Path)
return Reply(Path.takeError());
if (*Path)
return Reply(URIForFile::canonicalize(**Path, Params.uri.file()));
return Reply(llvm::None);
});
}
void ClangdLSPServer::onDocumentHighlight(
const TextDocumentPositionParams &Params,
Callback<std::vector<DocumentHighlight>> Reply) {
Server->findDocumentHighlights(Params.textDocument.uri.file(),
Params.position, std::move(Reply));
}
void ClangdLSPServer::onHover(const TextDocumentPositionParams &Params,
Callback<llvm::Optional<Hover>> Reply) {
Server->findHover(Params.textDocument.uri.file(), Params.position,
[Reply = std::move(Reply), this](
llvm::Expected<llvm::Optional<HoverInfo>> H) mutable {
if (!H)
return Reply(H.takeError());
if (!*H)
return Reply(llvm::None);
Hover R;
R.contents.kind = HoverContentFormat;
R.range = (*H)->SymRange;
switch (HoverContentFormat) {
case MarkupKind::PlainText:
R.contents.value = (*H)->present().asPlainText();
return Reply(std::move(R));
case MarkupKind::Markdown:
R.contents.value = (*H)->present().asMarkdown();
return Reply(std::move(R));
};
llvm_unreachable("unhandled MarkupKind");
});
}
void ClangdLSPServer::onTypeHierarchy(
const TypeHierarchyParams &Params,
Callback<Optional<TypeHierarchyItem>> Reply) {
Server->typeHierarchy(Params.textDocument.uri.file(), Params.position,
Params.resolve, Params.direction, std::move(Reply));
}
void ClangdLSPServer::onResolveTypeHierarchy(
const ResolveTypeHierarchyItemParams &Params,
Callback<Optional<TypeHierarchyItem>> Reply) {
Server->resolveTypeHierarchy(Params.item, Params.resolve, Params.direction,
std::move(Reply));
}
void ClangdLSPServer::applyConfiguration(
const ConfigurationSettings &Settings) {
// Per-file update to the compilation database.
llvm::StringSet<> ModifiedFiles;
for (auto &Entry : Settings.compilationDatabaseChanges) {
PathRef File = Entry.first;
auto Old = CDB->getCompileCommand(File);
auto New =
tooling::CompileCommand(std::move(Entry.second.workingDirectory), File,
std::move(Entry.second.compilationCommand),
/*Output=*/"");
if (Old != New) {
CDB->setCompileCommand(File, std::move(New));
ModifiedFiles.insert(File);
}
}
reparseOpenFilesIfNeeded(
[&](llvm::StringRef File) { return ModifiedFiles.count(File) != 0; });
}
void ClangdLSPServer::publishTheiaSemanticHighlighting(
const TheiaSemanticHighlightingParams &Params) {
notify("textDocument/semanticHighlighting", Params);
}
void ClangdLSPServer::publishDiagnostics(
const PublishDiagnosticsParams &Params) {
notify("textDocument/publishDiagnostics", Params);
}
// FIXME: This function needs to be properly tested.
void ClangdLSPServer::onChangeConfiguration(
const DidChangeConfigurationParams &Params) {
applyConfiguration(Params.settings);
}
void ClangdLSPServer::onReference(const ReferenceParams &Params,
Callback<std::vector<Location>> Reply) {
Server->findReferences(Params.textDocument.uri.file(), Params.position,
CCOpts.Limit,
[Reply = std::move(Reply)](
llvm::Expected<ReferencesResult> Refs) mutable {
if (!Refs)
return Reply(Refs.takeError());
return Reply(std::move(Refs->References));
});
}
void ClangdLSPServer::onSymbolInfo(const TextDocumentPositionParams &Params,
Callback<std::vector<SymbolDetails>> Reply) {
Server->symbolInfo(Params.textDocument.uri.file(), Params.position,
std::move(Reply));
}
void ClangdLSPServer::onSelectionRange(
const SelectionRangeParams &Params,
Callback<std::vector<SelectionRange>> Reply) {
Server->semanticRanges(
Params.textDocument.uri.file(), Params.positions,
[Reply = std::move(Reply)](
llvm::Expected<std::vector<SelectionRange>> Ranges) mutable {
if (!Ranges)
return Reply(Ranges.takeError());
return Reply(std::move(*Ranges));
});
}
void ClangdLSPServer::onDocumentLink(
const DocumentLinkParams &Params,
Callback<std::vector<DocumentLink>> Reply) {
// TODO(forster): This currently resolves all targets eagerly. This is slow,
// because it blocks on the preamble/AST being built. We could respond to the
// request faster by using string matching or the lexer to find the includes
// and resolving the targets lazily.
Server->documentLinks(
Params.textDocument.uri.file(),
[Reply = std::move(Reply)](
llvm::Expected<std::vector<DocumentLink>> Links) mutable {
if (!Links) {
return Reply(Links.takeError());
}
return Reply(std::move(Links));
});
}
// Increment a numeric string: "" -> 1 -> 2 -> ... -> 9 -> 10 -> 11 ...
static void increment(std::string &S) {
for (char &C : llvm::reverse(S)) {
if (C != '9') {
++C;
return;
}
C = '0';
}
S.insert(S.begin(), '1');
}
void ClangdLSPServer::onSemanticTokens(const SemanticTokensParams &Params,
Callback<SemanticTokens> CB) {
Server->semanticHighlights(
Params.textDocument.uri.file(),
[this, File(Params.textDocument.uri.file().str()), CB(std::move(CB))](
llvm::Expected<std::vector<HighlightingToken>> HT) mutable {
if (!HT)
return CB(HT.takeError());
SemanticTokens Result;
Result.tokens = toSemanticTokens(*HT);
{
std::lock_guard<std::mutex> Lock(SemanticTokensMutex);
auto &Last = LastSemanticTokens[File];
Last.tokens = Result.tokens;
increment(Last.resultId);
Result.resultId = Last.resultId;
}
CB(std::move(Result));
});
}
void ClangdLSPServer::onSemanticTokensDelta(
const SemanticTokensDeltaParams &Params,
Callback<SemanticTokensOrDelta> CB) {
Server->semanticHighlights(
Params.textDocument.uri.file(),
[this, PrevResultID(Params.previousResultId),
File(Params.textDocument.uri.file().str()), CB(std::move(CB))](
llvm::Expected<std::vector<HighlightingToken>> HT) mutable {
if (!HT)
return CB(HT.takeError());
std::vector<SemanticToken> Toks = toSemanticTokens(*HT);
SemanticTokensOrDelta Result;
{
std::lock_guard<std::mutex> Lock(SemanticTokensMutex);
auto &Last = LastSemanticTokens[File];
if (PrevResultID == Last.resultId) {
Result.edits = diffTokens(Last.tokens, Toks);
} else {
vlog("semanticTokens/full/delta: wanted edits vs {0} but last "
"result had ID {1}. Returning full token list.",
PrevResultID, Last.resultId);
Result.tokens = Toks;
}
Last.tokens = std::move(Toks);
increment(Last.resultId);
Result.resultId = Last.resultId;
}
CB(std::move(Result));
});
}
ClangdLSPServer::ClangdLSPServer(
class Transport &Transp, const ThreadsafeFS &TFS,
const clangd::CodeCompleteOptions &CCOpts,
const clangd::RenameOptions &RenameOpts,
llvm::Optional<Path> CompileCommandsDir, bool UseDirBasedCDB,
llvm::Optional<OffsetEncoding> ForcedOffsetEncoding,
const ClangdServer::Options &Opts)
: BackgroundContext(Context::current().clone()), Transp(Transp),
MsgHandler(new MessageHandler(*this)), TFS(TFS), CCOpts(CCOpts),
RenameOpts(RenameOpts), SupportedSymbolKinds(defaultSymbolKinds()),
SupportedCompletionItemKinds(defaultCompletionItemKinds()),
UseDirBasedCDB(UseDirBasedCDB),
CompileCommandsDir(std::move(CompileCommandsDir)), ClangdServerOpts(Opts),
NegotiatedOffsetEncoding(ForcedOffsetEncoding) {
// clang-format off
MsgHandler->bind("initialize", &ClangdLSPServer::onInitialize);
MsgHandler->bind("initialized", &ClangdLSPServer::onInitialized);
MsgHandler->bind("shutdown", &ClangdLSPServer::onShutdown);
2018-11-27 00:00:11 +08:00
MsgHandler->bind("sync", &ClangdLSPServer::onSync);
MsgHandler->bind("textDocument/rangeFormatting", &ClangdLSPServer::onDocumentRangeFormatting);
MsgHandler->bind("textDocument/onTypeFormatting", &ClangdLSPServer::onDocumentOnTypeFormatting);
MsgHandler->bind("textDocument/formatting", &ClangdLSPServer::onDocumentFormatting);
MsgHandler->bind("textDocument/codeAction", &ClangdLSPServer::onCodeAction);
MsgHandler->bind("textDocument/completion", &ClangdLSPServer::onCompletion);
MsgHandler->bind("textDocument/signatureHelp", &ClangdLSPServer::onSignatureHelp);
MsgHandler->bind("textDocument/definition", &ClangdLSPServer::onGoToDefinition);
MsgHandler->bind("textDocument/declaration", &ClangdLSPServer::onGoToDeclaration);
MsgHandler->bind("textDocument/references", &ClangdLSPServer::onReference);
MsgHandler->bind("textDocument/switchSourceHeader", &ClangdLSPServer::onSwitchSourceHeader);
MsgHandler->bind("textDocument/prepareRename", &ClangdLSPServer::onPrepareRename);
MsgHandler->bind("textDocument/rename", &ClangdLSPServer::onRename);
MsgHandler->bind("textDocument/hover", &ClangdLSPServer::onHover);
MsgHandler->bind("textDocument/documentSymbol", &ClangdLSPServer::onDocumentSymbol);
MsgHandler->bind("workspace/executeCommand", &ClangdLSPServer::onCommand);
MsgHandler->bind("textDocument/documentHighlight", &ClangdLSPServer::onDocumentHighlight);
MsgHandler->bind("workspace/symbol", &ClangdLSPServer::onWorkspaceSymbol);
MsgHandler->bind("textDocument/didOpen", &ClangdLSPServer::onDocumentDidOpen);
MsgHandler->bind("textDocument/didClose", &ClangdLSPServer::onDocumentDidClose);
MsgHandler->bind("textDocument/didChange", &ClangdLSPServer::onDocumentDidChange);
MsgHandler->bind("textDocument/didSave", &ClangdLSPServer::onDocumentDidSave);
MsgHandler->bind("workspace/didChangeWatchedFiles", &ClangdLSPServer::onFileEvent);
MsgHandler->bind("workspace/didChangeConfiguration", &ClangdLSPServer::onChangeConfiguration);
MsgHandler->bind("textDocument/symbolInfo", &ClangdLSPServer::onSymbolInfo);
MsgHandler->bind("textDocument/typeHierarchy", &ClangdLSPServer::onTypeHierarchy);
MsgHandler->bind("typeHierarchy/resolve", &ClangdLSPServer::onResolveTypeHierarchy);
MsgHandler->bind("textDocument/selectionRange", &ClangdLSPServer::onSelectionRange);
MsgHandler->bind("textDocument/documentLink", &ClangdLSPServer::onDocumentLink);
MsgHandler->bind("textDocument/semanticTokens/full", &ClangdLSPServer::onSemanticTokens);
MsgHandler->bind("textDocument/semanticTokens/full/delta", &ClangdLSPServer::onSemanticTokensDelta);
if (Opts.FoldingRanges)
MsgHandler->bind("textDocument/foldingRange", &ClangdLSPServer::onFoldingRange);
// clang-format on
}
ClangdLSPServer::~ClangdLSPServer() {
IsBeingDestroyed = true;
// Explicitly destroy ClangdServer first, blocking on threads it owns.
// This ensures they don't access any other members.
Server.reset();
}
bool ClangdLSPServer::run() {
// Run the Language Server loop.
bool CleanExit = true;
if (auto Err = Transp.loop(*MsgHandler)) {
elog("Transport error: {0}", std::move(Err));
CleanExit = false;
}
return CleanExit && ShutdownRequestReceived;
}
std::vector<Fix> ClangdLSPServer::getFixes(llvm::StringRef File,
const clangd::Diagnostic &D) {
std::lock_guard<std::mutex> Lock(FixItsMutex);
auto DiagToFixItsIter = FixItsMap.find(File);
if (DiagToFixItsIter == FixItsMap.end())
return {};
const auto &DiagToFixItsMap = DiagToFixItsIter->second;
auto FixItsIter = DiagToFixItsMap.find(D);
if (FixItsIter == DiagToFixItsMap.end())
return {};
return FixItsIter->second;
}
// A completion request is sent when the user types '>' or ':', but we only
// want to trigger on '->' and '::'. We check the preceeding text to make
// sure it matches what we expected.
// Running the lexer here would be more robust (e.g. we can detect comments
// and avoid triggering completion there), but we choose to err on the side
// of simplicity here.
bool ClangdLSPServer::shouldRunCompletion(
const CompletionParams &Params) const {
if (Params.context.triggerKind != CompletionTriggerKind::TriggerCharacter)
return true;
auto Code = DraftMgr.getDraft(Params.textDocument.uri.file());
if (!Code)
return true; // completion code will log the error for untracked doc.
auto Offset = positionToOffset(Code->Contents, Params.position,
/*AllowColumnsBeyondLineLength=*/false);
if (!Offset) {
vlog("could not convert position '{0}' to offset for file '{1}'",
Params.position, Params.textDocument.uri.file());
return true;
}
return allowImplicitCompletion(Code->Contents, *Offset);
}
void ClangdLSPServer::onHighlightingsReady(
PathRef File, llvm::StringRef Version,
std::vector<HighlightingToken> Highlightings) {
std::vector<HighlightingToken> Old;
std::vector<HighlightingToken> HighlightingsCopy = Highlightings;
{
std::lock_guard<std::mutex> Lock(HighlightingsMutex);
Old = std::move(FileToHighlightings[File]);
FileToHighlightings[File] = std::move(HighlightingsCopy);
}
// LSP allows us to send incremental edits of highlightings. Also need to diff
// to remove highlightings from tokens that should no longer have them.
std::vector<LineHighlightings> Diffed = diffHighlightings(Highlightings, Old);
TheiaSemanticHighlightingParams Notification;
Notification.TextDocument.uri =
URIForFile::canonicalize(File, /*TUPath=*/File);
Notification.TextDocument.version = decodeVersion(Version);
Notification.Lines = toTheiaSemanticHighlightingInformation(Diffed);
publishTheiaSemanticHighlighting(Notification);
}
void ClangdLSPServer::onDiagnosticsReady(PathRef File, llvm::StringRef Version,
std::vector<Diag> Diagnostics) {
PublishDiagnosticsParams Notification;
Notification.version = decodeVersion(Version);
Notification.uri = URIForFile::canonicalize(File, /*TUPath=*/File);
DiagnosticToReplacementMap LocalFixIts; // Temporary storage
for (auto &Diag : Diagnostics) {
toLSPDiags(Diag, Notification.uri, DiagOpts,
[&](clangd::Diagnostic Diag, llvm::ArrayRef<Fix> Fixes) {
auto &FixItsForDiagnostic = LocalFixIts[Diag];
llvm::copy(Fixes, std::back_inserter(FixItsForDiagnostic));
Notification.diagnostics.push_back(std::move(Diag));
});
}
// Cache FixIts
{
std::lock_guard<std::mutex> Lock(FixItsMutex);
FixItsMap[File] = LocalFixIts;
}
// Send a notification to the LSP client.
publishDiagnostics(Notification);
}
void ClangdLSPServer::onBackgroundIndexProgress(
const BackgroundQueue::Stats &Stats) {
static const char ProgressToken[] = "backgroundIndexProgress";
std::lock_guard<std::mutex> Lock(BackgroundIndexProgressMutex);
auto NotifyProgress = [this](const BackgroundQueue::Stats &Stats) {
if (BackgroundIndexProgressState != BackgroundIndexProgress::Live) {
WorkDoneProgressBegin Begin;
Begin.percentage = true;
Begin.title = "indexing";
progress(ProgressToken, std::move(Begin));
BackgroundIndexProgressState = BackgroundIndexProgress::Live;
}
if (Stats.Completed < Stats.Enqueued) {
assert(Stats.Enqueued > Stats.LastIdle);
WorkDoneProgressReport Report;
Report.percentage = 100.0 * (Stats.Completed - Stats.LastIdle) /
(Stats.Enqueued - Stats.LastIdle);
Report.message =
llvm::formatv("{0}/{1}", Stats.Completed - Stats.LastIdle,
Stats.Enqueued - Stats.LastIdle);
progress(ProgressToken, std::move(Report));
} else {
assert(Stats.Completed == Stats.Enqueued);
progress(ProgressToken, WorkDoneProgressEnd());
BackgroundIndexProgressState = BackgroundIndexProgress::Empty;
}
};
switch (BackgroundIndexProgressState) {
case BackgroundIndexProgress::Unsupported:
return;
case BackgroundIndexProgress::Creating:
// Cache this update for when the progress bar is available.
PendingBackgroundIndexProgress = Stats;
return;
case BackgroundIndexProgress::Empty: {
if (BackgroundIndexSkipCreate) {
NotifyProgress(Stats);
break;
}
// Cache this update for when the progress bar is available.
PendingBackgroundIndexProgress = Stats;
BackgroundIndexProgressState = BackgroundIndexProgress::Creating;
WorkDoneProgressCreateParams CreateRequest;
CreateRequest.token = ProgressToken;
call<std::nullptr_t>(
"window/workDoneProgress/create", CreateRequest,
[this, NotifyProgress](llvm::Expected<std::nullptr_t> E) {
std::lock_guard<std::mutex> Lock(BackgroundIndexProgressMutex);
if (E) {
NotifyProgress(this->PendingBackgroundIndexProgress);
} else {
elog("Failed to create background index progress bar: {0}",
E.takeError());
// give up forever rather than thrashing about
BackgroundIndexProgressState = BackgroundIndexProgress::Unsupported;
}
});
break;
}
case BackgroundIndexProgress::Live:
NotifyProgress(Stats);
break;
}
}
void ClangdLSPServer::onFileUpdated(PathRef File, const TUStatus &Status) {
if (!SupportFileStatus)
return;
// FIXME: we don't emit "BuildingFile" and `RunningAction`, as these
// two statuses are running faster in practice, which leads the UI constantly
// changing, and doesn't provide much value. We may want to emit status at a
// reasonable time interval (e.g. 0.5s).
if (Status.PreambleActivity == PreambleAction::Idle &&
(Status.ASTActivity.K == ASTAction::Building ||
Status.ASTActivity.K == ASTAction::RunningAction))
return;
notify("textDocument/clangd.fileStatus", Status.render(File));
}
void ClangdLSPServer::reparseOpenFilesIfNeeded(
llvm::function_ref<bool(llvm::StringRef File)> Filter) {
// Reparse only opened files that were modified.
for (const Path &FilePath : DraftMgr.getActiveFiles())
if (Filter(FilePath))
if (auto Draft = DraftMgr.getDraft(FilePath)) // else disappeared in race?
Server->addDocument(FilePath, std::move(Draft->Contents),
encodeVersion(Draft->Version),
WantDiagnostics::Auto);
}
} // namespace clangd
} // namespace clang