ccls/src/command_line.cc

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// TODO: cleanup includes
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#include "cache.h"
#include "code_completion.h"
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#include "file_consumer.h"
#include "fuzzy.h"
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#include "indexer.h"
#include "query.h"
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#include "language_server_api.h"
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#include "options.h"
#include "project.h"
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#include "platform.h"
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#include "test.h"
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#include "timer.h"
#include "threaded_queue.h"
#include "typed_bidi_message_queue.h"
#include "working_files.h"
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#include <doctest/doctest.h>
#include <rapidjson/istreamwrapper.h>
#include <rapidjson/ostreamwrapper.h>
#include <fstream>
#include <functional>
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#include <iostream>
#include <string>
#include <unordered_map>
#include <thread>
#include <vector>
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// TODO: provide a feature like 'https://github.com/goldsborough/clang-expand',
// ie, a fully linear view of a function with inline function calls expanded.
// We can probably use vscode decorators to achieve it.
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namespace {
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const bool kUseMultipleProcesses = false; // TODO: initialization options not passed properly when set to true.
struct IpcManager {
// TODO: Rename TypedBidiMessageQueue to IpcTransport?
using IpcMessageQueue = TypedBidiMessageQueue<IpcId, BaseIpcMessage>;
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static constexpr const char* kIpcLanguageClientName = "lanclient";
static constexpr const int kQueueSizeBytes = 1024 * 8;
static IpcManager* instance_;
static IpcManager* instance() {
return instance_;
}
static void CreateInstance() {
instance_ = new IpcManager();
}
std::unique_ptr<ThreadedQueue<std::unique_ptr<BaseIpcMessage>>> threaded_queue_for_client_;
std::unique_ptr<ThreadedQueue<std::unique_ptr<BaseIpcMessage>>> threaded_queue_for_server_;
std::unique_ptr<IpcMessageQueue> ipc_queue_;
enum class Destination {
Client, Server
};
MessageQueue* GetMessageQueue(Destination destination) {
assert(kUseMultipleProcesses);
return destination == Destination::Client ? &ipc_queue_->for_client : &ipc_queue_->for_server;
}
ThreadedQueue<std::unique_ptr<BaseIpcMessage>>* GetThreadedQueue(Destination destination) {
assert(!kUseMultipleProcesses);
return destination == Destination::Client ? threaded_queue_for_client_.get() : threaded_queue_for_server_.get();
}
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void SendOutMessageToClient(lsBaseOutMessage& response) {
std::ostringstream sstream;
response.Write(sstream);
if (kUseMultipleProcesses) {
Ipc_Cout out;
out.content = sstream.str();
ipc_queue_->SendMessage(&ipc_queue_->for_client, Ipc_Cout::kIpcId, out);
}
else {
auto out = MakeUnique<Ipc_Cout>();
out->content = sstream.str();
GetThreadedQueue(Destination::Client)->Enqueue(std::move(out));
}
}
void SendMessage(Destination destination, std::unique_ptr<BaseIpcMessage> message) {
if (kUseMultipleProcesses)
ipc_queue_->SendMessage(GetMessageQueue(destination), message->method_id, *message);
else
GetThreadedQueue(destination)->Enqueue(std::move(message));
}
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std::vector<std::unique_ptr<BaseIpcMessage>> GetMessages(Destination destination) {
if (kUseMultipleProcesses)
return ipc_queue_->GetMessages(GetMessageQueue(destination));
else
return GetThreadedQueue(destination)->DequeueAll();
}
private:
IpcManager() {
if (kUseMultipleProcesses) {
ipc_queue_ = BuildIpcMessageQueue(kIpcLanguageClientName, kQueueSizeBytes);
}
else {
threaded_queue_for_client_ = MakeUnique<ThreadedQueue<std::unique_ptr<BaseIpcMessage>>>();
threaded_queue_for_server_ = MakeUnique<ThreadedQueue<std::unique_ptr<BaseIpcMessage>>>();
}
}
template<typename T>
void RegisterId(IpcMessageQueue* t) {
t->RegisterId(T::kIpcId,
[](Writer& visitor, BaseIpcMessage& message) {
T& m = static_cast<T&>(message);
Reflect(visitor, m);
}, [](Reader& visitor) {
auto m = MakeUnique<T>();
Reflect(visitor, *m);
return m;
});
}
std::unique_ptr<IpcMessageQueue> BuildIpcMessageQueue(const std::string& name, size_t buffer_size) {
auto ipc = MakeUnique<IpcMessageQueue>(name, buffer_size);
RegisterId<Ipc_CancelRequest>(ipc.get());
RegisterId<Ipc_InitializeRequest>(ipc.get());
RegisterId<Ipc_InitializedNotification>(ipc.get());
RegisterId<Ipc_TextDocumentDidOpen>(ipc.get());
RegisterId<Ipc_TextDocumentDidChange>(ipc.get());
RegisterId<Ipc_TextDocumentDidClose>(ipc.get());
RegisterId<Ipc_TextDocumentDidSave>(ipc.get());
RegisterId<Ipc_TextDocumentRename>(ipc.get());
RegisterId<Ipc_TextDocumentComplete>(ipc.get());
RegisterId<Ipc_TextDocumentDefinition>(ipc.get());
RegisterId<Ipc_TextDocumentDocumentHighlight>(ipc.get());
RegisterId<Ipc_TextDocumentHover>(ipc.get());
RegisterId<Ipc_TextDocumentReferences>(ipc.get());
RegisterId<Ipc_TextDocumentDocumentSymbol>(ipc.get());
RegisterId<Ipc_TextDocumentCodeLens>(ipc.get());
RegisterId<Ipc_CodeLensResolve>(ipc.get());
RegisterId<Ipc_WorkspaceSymbol>(ipc.get());
RegisterId<Ipc_Quit>(ipc.get());
RegisterId<Ipc_IsAlive>(ipc.get());
RegisterId<Ipc_OpenProject>(ipc.get());
RegisterId<Ipc_Cout>(ipc.get());
return ipc;
}
};
IpcManager* IpcManager::instance_ = nullptr;
bool IsQueryDbProcessRunningOutOfProcess() {
if (!kUseMultipleProcesses)
return false;
IpcManager* ipc = IpcManager::instance();
// Discard any left-over messages from previous runs.
if (kUseMultipleProcesses)
ipc->GetMessages(IpcManager::Destination::Client);
// Emit an alive check. Sleep so the server has time to respond.
std::cerr << "[setup] Sending IsAlive request to server" << std::endl;
ipc->SendMessage(IpcManager::Destination::Server, MakeUnique<Ipc_IsAlive>());
// TODO: Tune this value or make it configurable.
std::this_thread::sleep_for(std::chrono::milliseconds(100));
// Check if we got an IsAlive message back.
std::vector<std::unique_ptr<BaseIpcMessage>> messages = ipc->GetMessages(IpcManager::Destination::Client);
for (auto& message : messages) {
if (IpcId::IsAlive == message->method_id) {
return true;
}
else {
std::cerr << "[setup] Unhandled IPC message " << IpcIdToString(message->method_id) << std::endl;
exit(1);
}
}
// No response back. Clear out server messages so server doesn't respond to stale request.
ipc->GetMessages(IpcManager::Destination::Server);
return false;
}
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void PushBack(NonElidedVector<lsLocation>* result, optional<lsLocation> location) {
if (location)
result->push_back(*location);
}
QueryFile* FindFile(QueryDatabase* db, const std::string& filename, QueryFileId* file_id) {
auto it = db->usr_to_symbol.find(filename);
if (it != db->usr_to_symbol.end()) {
*file_id = QueryFileId(it->second.idx);
return &db->files[it->second.idx];
}
std::cerr << "Unable to find file " << filename << std::endl;
*file_id = QueryFileId(-1);
return nullptr;
}
QueryFile* FindFile(QueryDatabase* db, const std::string& filename) {
// TODO: consider calling NormalizePath here. It might add too much latency though.
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auto it = db->usr_to_symbol.find(filename);
if (it != db->usr_to_symbol.end())
return &db->files[it->second.idx];
std::cerr << "Unable to find file " << filename << std::endl;
return nullptr;
}
QueryFile* GetQuery(QueryDatabase* db, const QueryFileId& id) {
return &db->files[id.id];
}
QueryType* GetQuery(QueryDatabase* db, const QueryTypeId& id) {
return &db->types[id.id];
}
QueryFunc* GetQuery(QueryDatabase* db, const QueryFuncId& id) {
return &db->funcs[id.id];
}
QueryVar* GetQuery(QueryDatabase* db, const QueryVarId& id) {
return &db->vars[id.id];
}
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optional<QueryLocation> GetDefinitionSpellingOfSymbol(QueryDatabase* db, const QueryTypeId& id) {
return GetQuery(db, id)->def.definition_spelling;
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}
optional<QueryLocation> GetDefinitionSpellingOfSymbol(QueryDatabase* db, const QueryFuncId& id) {
return GetQuery(db, id)->def.definition_spelling;
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}
optional<QueryLocation> GetDefinitionSpellingOfSymbol(QueryDatabase* db, const QueryVarId& id) {
return GetQuery(db, id)->def.definition_spelling;
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}
optional<QueryLocation> GetDefinitionSpellingOfSymbol(QueryDatabase* db, const SymbolIdx& symbol) {
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switch (symbol.kind) {
case SymbolKind::Type:
return db->types[symbol.idx].def.definition_spelling;
case SymbolKind::Func:
return db->funcs[symbol.idx].def.definition_spelling;
case SymbolKind::Var:
return db->vars[symbol.idx].def.definition_spelling;
case SymbolKind::File:
case SymbolKind::Invalid: {
assert(false && "unexpected");
break;
}
}
return nullopt;
}
std::string GetHoverForSymbol(QueryDatabase* db, const SymbolIdx& symbol) {
switch (symbol.kind) {
case SymbolKind::Type:
return db->types[symbol.idx].def.detailed_name;
case SymbolKind::Func:
return db->funcs[symbol.idx].def.detailed_name;
case SymbolKind::Var:
return db->vars[symbol.idx].def.detailed_name;
case SymbolKind::File:
case SymbolKind::Invalid: {
assert(false && "unexpected");
break;
}
}
return "";
}
std::vector<QueryLocation> ToQueryLocation(QueryDatabase* db, const std::vector<QueryFuncRef>& refs) {
std::vector<QueryLocation> locs;
locs.reserve(refs.size());
for (const QueryFuncRef& ref : refs)
locs.push_back(ref.loc);
return locs;
}
std::vector<QueryLocation> ToQueryLocation(QueryDatabase* db, const std::vector<QueryTypeId>& ids) {
std::vector<QueryLocation> locs;
locs.reserve(ids.size());
for (const QueryTypeId& id : ids) {
optional<QueryLocation> loc = GetDefinitionSpellingOfSymbol(db, id);
if (loc)
locs.push_back(loc.value());
}
return locs;
}
std::vector<QueryLocation> ToQueryLocation(QueryDatabase* db, const std::vector<QueryFuncId>& ids) {
std::vector<QueryLocation> locs;
locs.reserve(ids.size());
for (const QueryFuncId& id : ids) {
optional<QueryLocation> loc = GetDefinitionSpellingOfSymbol(db, id);
if (loc)
locs.push_back(loc.value());
}
return locs;
}
std::vector<QueryLocation> ToQueryLocation(QueryDatabase* db, const std::vector<QueryVarId>& ids) {
std::vector<QueryLocation> locs;
locs.reserve(ids.size());
for (const QueryVarId& id : ids) {
optional<QueryLocation> loc = GetDefinitionSpellingOfSymbol(db, id);
if (loc)
locs.push_back(loc.value());
}
return locs;
}
std::vector<QueryLocation> GetUsesOfSymbol(QueryDatabase* db, const SymbolIdx& symbol) {
switch (symbol.kind) {
case SymbolKind::Type:
return db->types[symbol.idx].uses;
case SymbolKind::Func: {
// TODO: the vector allocation could be avoided.
const QueryFunc& func = db->funcs[symbol.idx];
std::vector<QueryLocation> result = ToQueryLocation(db, func.callers);
AddRange(&result, func.declarations);
if (func.def.definition_spelling)
result.push_back(*func.def.definition_spelling);
return result;
}
case SymbolKind::Var:
return db->vars[symbol.idx].uses;
case SymbolKind::File:
case SymbolKind::Invalid: {
assert(false && "unexpected");
break;
}
}
return {};
}
optional<QueryLocation> GetDefinitionExtentOfSymbol(QueryDatabase* db, const QueryTypeId& id) {
return GetQuery(db, id)->def.definition_extent;
}
optional<QueryLocation> GetDefinitionExtentOfSymbol(QueryDatabase* db, const QueryFuncId& id) {
return GetQuery(db, id)->def.definition_extent;
}
optional<QueryLocation> GetDefinitionExtentOfSymbol(QueryDatabase* db, const QueryVarId& id) {
return GetQuery(db, id)->def.definition_extent;
}
optional<QueryLocation> GetDefinitionExtentOfSymbol(QueryDatabase* db, const SymbolIdx& symbol) {
switch (symbol.kind) {
case SymbolKind::File:
// TODO: If line 1 is deleted the file won't show up in, ie, workspace symbol search results.
return QueryLocation(QueryFileId(symbol.idx), Range(false /*is_interesting*/, Position(1, 1), Position(1, 1)));
case SymbolKind::Type:
return db->types[symbol.idx].def.definition_extent;
case SymbolKind::Func:
return db->funcs[symbol.idx].def.definition_extent;
case SymbolKind::Var:
return db->vars[symbol.idx].def.definition_extent;
case SymbolKind::Invalid: {
assert(false && "unexpected");
break;
}
}
return nullopt;
}
std::vector<QueryLocation> GetDeclarationsOfSymbolForGotoDefinition(QueryDatabase* db, const SymbolIdx& symbol) {
switch (symbol.kind) {
case SymbolKind::Type: {
// Returning the definition spelling of a type is a hack (and is why the
// function has the postfix `ForGotoDefintion`, but it lets the user
// jump to the start of a type if clicking goto-definition on the same
// type from within the type definition.
optional<QueryLocation> declaration = db->types[symbol.idx].def.definition_spelling;
if (declaration)
return { *declaration };
break;
}
case SymbolKind::Func:
return db->funcs[symbol.idx].declarations;
case SymbolKind::Var: {
optional<QueryLocation> declaration = db->vars[symbol.idx].def.declaration;
if (declaration)
return { *declaration };
break;
}
}
return {};
}
optional<QueryLocation> GetBaseDefinitionOrDeclarationSpelling(QueryDatabase* db, QueryFunc& func) {
if (!func.def.base)
return nullopt;
QueryFunc& base = db->funcs[func.def.base->id];
auto def = base.def.definition_spelling;
if (!def && !base.declarations.empty())
def = base.declarations[0];
return def;
}
std::vector<QueryFuncRef> GetCallersForAllBaseFunctions(QueryDatabase* db, QueryFunc& root) {
std::vector<QueryFuncRef> callers;
optional<QueryFuncId> func_id = root.def.base;
while (func_id) {
QueryFunc& func = db->funcs[func_id->id];
AddRange(&callers, func.callers);
func_id = func.def.base;
}
return callers;
}
std::vector<QueryFuncRef> GetCallersForAllDerivedFunctions(QueryDatabase* db, QueryFunc& root) {
std::vector<QueryFuncRef> callers;
std::queue<QueryFuncId> queue;
PushRange(&queue, root.derived);
while (!queue.empty()) {
QueryFunc& func = db->funcs[queue.front().id];
queue.pop();
PushRange(&queue, func.derived);
AddRange(&callers, func.callers);
}
return callers;
}
optional<lsRange> GetLsRange(WorkingFile* working_file, const Range& location) {
if (!working_file) {
return lsRange(
lsPosition(location.start.line - 1, location.start.column - 1),
lsPosition(location.end.line - 1, location.end.column - 1));
}
optional<int> start = working_file->GetBufferLineFromDiskLine(location.start.line);
optional<int> end = working_file->GetBufferLineFromDiskLine(location.end.line);
if (!start || !end)
return nullopt;
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return lsRange(
lsPosition(*start - 1, location.start.column - 1),
lsPosition(*end - 1, location.end.column - 1));
}
lsDocumentUri GetLsDocumentUri(QueryDatabase* db, QueryFileId file_id, std::string* path) {
*path = db->files[file_id.id].def.path;
return lsDocumentUri::FromPath(*path);
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}
lsDocumentUri GetLsDocumentUri(QueryDatabase* db, QueryFileId file_id) {
std::string path = db->files[file_id.id].def.path;
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return lsDocumentUri::FromPath(path);
}
optional<lsLocation> GetLsLocation(QueryDatabase* db, WorkingFiles* working_files, const QueryLocation& location) {
std::string path;
lsDocumentUri uri = GetLsDocumentUri(db, location.path, &path);
optional<lsRange> range = GetLsRange(working_files->GetFileByFilename(path), location.range);
if (!range)
return nullopt;
return lsLocation(uri, *range);
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}
// Returns a symbol. The symbol will have *NOT* have a location assigned.
lsSymbolInformation GetSymbolInfo(QueryDatabase* db, WorkingFiles* working_files, SymbolIdx symbol) {
lsSymbolInformation info;
switch (symbol.kind) {
case SymbolKind::File: {
QueryFile* file = symbol.ResolveFile(db);
info.name = file->def.path;
info.kind = lsSymbolKind::File;
break;
}
case SymbolKind::Type: {
QueryType* type = symbol.ResolveType(db);
info.name = type->def.detailed_name;
info.kind = lsSymbolKind::Class;
break;
}
case SymbolKind::Func: {
QueryFunc* func = symbol.ResolveFunc(db);
info.name = func->def.detailed_name;
if (func->def.declaring_type.has_value()) {
info.kind = lsSymbolKind::Method;
info.containerName = db->types[func->def.declaring_type->id].def.detailed_name;
}
else {
info.kind = lsSymbolKind::Function;
}
break;
}
case SymbolKind::Var: {
QueryVar* var = symbol.ResolveVar(db);
info.name += var->def.detailed_name;
info.kind = lsSymbolKind::Variable;
break;
}
case SymbolKind::Invalid: {
assert(false && "unexpected");
break;
}
};
return info;
}
struct CommonCodeLensParams {
std::vector<TCodeLens>* result;
QueryDatabase* db;
WorkingFiles* working_files;
WorkingFile* working_file;
};
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void AddCodeLens(
CommonCodeLensParams* common,
QueryLocation loc,
const std::vector<QueryLocation>& uses,
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const char* singular,
const char* plural,
bool exclude_loc = false,
bool only_interesting = false) {
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TCodeLens code_lens;
optional<lsRange> range = GetLsRange(common->working_file, loc.range);
if (!range)
return;
code_lens.range = *range;
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code_lens.command = lsCommand<lsCodeLensCommandArguments>();
code_lens.command->command = "superindex.showReferences";
code_lens.command->arguments.uri = GetLsDocumentUri(common->db, loc.path);
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code_lens.command->arguments.position = code_lens.range.start;
// Add unique uses.
std::unordered_set<lsLocation> unique_uses;
for (const QueryLocation& use : uses) {
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if (exclude_loc && use == loc)
continue;
if (only_interesting && !use.range.interesting)
continue;
optional<lsLocation> location = GetLsLocation(common->db, common->working_files, use);
if (!location)
continue;
unique_uses.insert(*location);
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}
code_lens.command->arguments.locations.assign(unique_uses.begin(),
unique_uses.end());
// User visible label
size_t num_usages = unique_uses.size();
code_lens.command->title = std::to_string(num_usages) + " ";
if (num_usages == 1)
code_lens.command->title += singular;
else
code_lens.command->title += plural;
if (exclude_loc || unique_uses.size() > 0)
common->result->push_back(code_lens);
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}
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lsWorkspaceEdit BuildWorkspaceEdit(QueryDatabase* db, WorkingFiles* working_files, const std::vector<QueryLocation>& locations, const std::string& new_text) {
std::unordered_map<QueryFileId, lsTextDocumentEdit> path_to_edit;
for (auto& location : locations) {
optional<lsLocation> ls_location = GetLsLocation(db, working_files, location);
if (!ls_location)
continue;
if (path_to_edit.find(location.path) == path_to_edit.end()) {
path_to_edit[location.path] = lsTextDocumentEdit();
const std::string& path = db->files[location.path.id].def.path;
path_to_edit[location.path].textDocument.uri = lsDocumentUri::FromPath(path);
WorkingFile* working_file = working_files->GetFileByFilename(path);
if (working_file)
path_to_edit[location.path].textDocument.version = working_file->version;
}
lsTextEdit edit;
edit.range = ls_location->range;
edit.newText = new_text;
path_to_edit[location.path].edits.push_back(edit);
}
lsWorkspaceEdit edit;
for (const auto& changes : path_to_edit)
edit.documentChanges.push_back(changes.second);
return edit;
}
std::vector<SymbolRef> FindSymbolsAtLocation(QueryFile* file, lsPosition position) {
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std::vector<SymbolRef> symbols;
symbols.reserve(1);
// TODO: This needs to use the WorkingFile to convert buffer location to
// indexed location.
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int target_line = position.line + 1;
int target_column = position.character + 1;
for (const SymbolRef& ref : file->def.all_symbols) {
if (ref.loc.range.Contains(target_line, target_column))
symbols.push_back(ref);
}
return symbols;
}
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} // namespace
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struct Index_DoIndex {
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enum class Type {
Import,
Update
};
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std::string path;
std::vector<std::string> args;
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Type type;
Index_DoIndex(Type type) : type(type) {}
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};
struct Index_DoIdMap {
std::unique_ptr<IndexedFile> previous;
std::unique_ptr<IndexedFile> current;
explicit Index_DoIdMap(std::unique_ptr<IndexedFile> previous,
std::unique_ptr<IndexedFile> current)
: previous(std::move(previous)),
current(std::move(current)) {}
};
struct Index_OnIdMapped {
std::unique_ptr<IndexedFile> previous_index;
std::unique_ptr<IndexedFile> current_index;
std::unique_ptr<IdMap> previous_id_map;
std::unique_ptr<IdMap> current_id_map;
};
struct Index_OnIndexed {
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IndexUpdate update;
explicit Index_OnIndexed(IndexUpdate& update) : update(update) {}
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};
using Index_DoIndexQueue = ThreadedQueue<Index_DoIndex>;
using Index_DoIdMapQueue = ThreadedQueue<Index_DoIdMap>;
using Index_OnIdMappedQueue = ThreadedQueue<Index_OnIdMapped>;
using Index_OnIndexedQueue = ThreadedQueue<Index_OnIndexed>;
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void RegisterMessageTypes() {
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MessageRegistry::instance()->Register<Ipc_CancelRequest>();
MessageRegistry::instance()->Register<Ipc_InitializeRequest>();
MessageRegistry::instance()->Register<Ipc_InitializedNotification>();
MessageRegistry::instance()->Register<Ipc_TextDocumentDidOpen>();
MessageRegistry::instance()->Register<Ipc_TextDocumentDidChange>();
MessageRegistry::instance()->Register<Ipc_TextDocumentDidClose>();
MessageRegistry::instance()->Register<Ipc_TextDocumentDidSave>();
MessageRegistry::instance()->Register<Ipc_TextDocumentRename>();
MessageRegistry::instance()->Register<Ipc_TextDocumentComplete>();
MessageRegistry::instance()->Register<Ipc_TextDocumentDefinition>();
MessageRegistry::instance()->Register<Ipc_TextDocumentDocumentHighlight>();
MessageRegistry::instance()->Register<Ipc_TextDocumentHover>();
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MessageRegistry::instance()->Register<Ipc_TextDocumentReferences>();
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MessageRegistry::instance()->Register<Ipc_TextDocumentDocumentSymbol>();
MessageRegistry::instance()->Register<Ipc_TextDocumentCodeLens>();
MessageRegistry::instance()->Register<Ipc_CodeLensResolve>();
MessageRegistry::instance()->Register<Ipc_WorkspaceSymbol>();
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}
bool IndexMain_DoIndex(IndexerConfig* config,
FileConsumer::SharedState* file_consumer_shared,
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Index_DoIndexQueue* queue_do_index,
Index_DoIdMapQueue* queue_do_id_map) {
optional<Index_DoIndex> index_request = queue_do_index->TryDequeue();
if (!index_request)
return false;
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Timer time;
// If the index update is an import, then we will load the previous index
// into memory if we have a previous index. After that, we dispatch an
// update request to get the latest version.
if (index_request->type == Index_DoIndex::Type::Import) {
index_request->type = Index_DoIndex::Type::Update;
std::unique_ptr<IndexedFile> old_index = LoadCachedFile(config->cacheDirectory, index_request->path);
time.ResetAndPrint("Reading cached index from disk " + index_request->path);
// If import fails just do a standard update.
if (old_index) {
for (auto& dependency_path : old_index->dependencies) {
std::cerr << "- Dispatching dependency import " << dependency_path << std::endl;
Index_DoIndex dep_index_request(Index_DoIndex::Type::Import);
dep_index_request.path = dependency_path;
dep_index_request.args = index_request->args;
queue_do_index->Enqueue(std::move(dep_index_request));
}
Index_DoIdMap response(nullptr, std::move(old_index));
queue_do_id_map->Enqueue(std::move(response));
queue_do_index->Enqueue(std::move(*index_request));
return true;
}
}
// Parse request and send a response.
std::vector<std::unique_ptr<IndexedFile>> indexes = Parse(config, file_consumer_shared, index_request->path, index_request->args);
time.ResetAndPrint("Parsing/indexing " + index_request->path);
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for (auto& current_index : indexes) {
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std::cerr << "Got index for " << current_index->path << std::endl;
std::unique_ptr<IndexedFile> old_index = LoadCachedFile(config->cacheDirectory, current_index->path);
time.ResetAndPrint("Loading cached index");
// TODO: Cache to disk on a separate thread. Maybe we do the cache after we
// have imported the index (so the import pipeline has five stages instead
// of the current 4).
// Cache file so we can diff it later.
WriteToCache(config->cacheDirectory, current_index->path, *current_index);
time.ResetAndPrint("Cache index update to disk");
// Send response to create id map.
Index_DoIdMap response(std::move(old_index), std::move(current_index));
queue_do_id_map->Enqueue(std::move(response));
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}
return true;
}
bool IndexMain_DoCreateIndexUpdate(
Index_OnIdMappedQueue* queue_on_id_mapped,
Index_OnIndexedQueue* queue_on_indexed) {
optional<Index_OnIdMapped> response = queue_on_id_mapped->TryDequeue();
if (!response)
return false;
Timer time;
IndexUpdate update = IndexUpdate::CreateDelta(response->previous_id_map.get(), response->current_id_map.get(),
response->previous_index.get(), response->current_index.get());
time.ResetAndPrint("Creating delta IndexUpdate");
Index_OnIndexed reply(update);
queue_on_indexed->Enqueue(std::move(reply));
time.ResetAndPrint("Sending update to server");
return true;
}
void IndexJoinIndexUpdates(Index_OnIndexedQueue* queue_on_indexed) {
optional<Index_OnIndexed> root = queue_on_indexed->TryDequeue();
if (!root)
return;
while (true) {
optional<Index_OnIndexed> to_join = queue_on_indexed->TryDequeue();
if (!to_join) {
queue_on_indexed->Enqueue(std::move(*root));
return;
}
Timer time;
root->update.Merge(to_join->update);
time.ResetAndPrint("Indexer joining two querydb updates");
}
}
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void IndexMain(
IndexerConfig* config,
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FileConsumer::SharedState* file_consumer_shared,
Index_DoIndexQueue* queue_do_index,
Index_DoIdMapQueue* queue_do_id_map,
Index_OnIdMappedQueue* queue_on_id_mapped,
Index_OnIndexedQueue* queue_on_indexed) {
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SetCurrentThreadName("indexer");
while (true) {
// TODO: process all off IndexMain_DoIndex before calling IndexMain_DoCreateIndexUpdate for
// better icache behavior. We need to have some threads spinning on both though
// otherwise memory usage will get bad.
int count = 0;
if (!IndexMain_DoIndex(config, file_consumer_shared, queue_do_index, queue_do_id_map) &&
!IndexMain_DoCreateIndexUpdate(queue_on_id_mapped, queue_on_indexed)) {
//if (count++ > 2) {
// count = 0;
IndexJoinIndexUpdates(queue_on_indexed);
//}
// TODO: use CV to wakeup?
std::this_thread::sleep_for(std::chrono::milliseconds(25));
}
}
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}
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void QueryDbMainLoop(
IndexerConfig* config,
QueryDatabase* db,
Index_DoIndexQueue* queue_do_index,
Index_DoIdMapQueue* queue_do_id_map,
Index_OnIdMappedQueue* queue_on_id_mapped,
Index_OnIndexedQueue* queue_on_indexed,
Project* project,
WorkingFiles* working_files,
CompletionManager* completion_manager) {
IpcManager* ipc = IpcManager::instance();
std::vector<std::unique_ptr<BaseIpcMessage>> messages = ipc->GetMessages(IpcManager::Destination::Server);
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for (auto& message : messages) {
std::cerr << "[querydb] Processing message " << IpcIdToString(message->method_id) << std::endl;
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switch (message->method_id) {
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case IpcId::Quit: {
std::cerr << "[querydb] Got quit message (exiting)" << std::endl;
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exit(0);
break;
}
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case IpcId::IsAlive: {
std::cerr << "[querydb] Sending IsAlive response to client" << std::endl;
ipc->SendMessage(IpcManager::Destination::Client, MakeUnique<Ipc_IsAlive>());
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break;
}
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case IpcId::OpenProject: {
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Ipc_OpenProject* msg = static_cast<Ipc_OpenProject*>(message.get());
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std::string path = msg->project_path;
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std::vector<Matcher> whitelist;
std::cerr << "Using whitelist" << std::endl;
for (const std::string& entry : config->whitelist) {
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std::cerr << " - " << entry << std::endl;
whitelist.push_back(Matcher(entry));
}
std::vector<Matcher> blacklist;
std::cerr << "Using blacklist" << std::endl;
for (const std::string& entry : config->blacklist) {
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std::cerr << " - " << entry << std::endl;
blacklist.push_back(Matcher(entry));
}
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project->Load(path);
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std::cerr << "Loaded compilation entries (" << project->entries.size() << " files)" << std::endl;
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//for (int i = 0; i < 10; ++i)
//std::cerr << project->entries[i].filename << std::endl;
for (int i = 0; i < project->entries.size(); ++i) {
const CompilationEntry& entry = project->entries[i];
std::string filepath = entry.filename;
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const Matcher* is_bad = nullptr;
for (const Matcher& m : whitelist) {
if (!m.IsMatch(filepath)) {
is_bad = &m;
break;
}
}
if (is_bad) {
std::cerr << "[" << i << "/" << (project->entries.size() - 1) << "] Failed whitelist check \"" << is_bad->regex_string << "\"; skipping " << filepath << std::endl;
continue;
}
for (const Matcher& m : blacklist) {
if (m.IsMatch(filepath)) {
is_bad = &m;
break;
}
}
if (is_bad) {
std::cerr << "[" << i << "/" << (project->entries.size() - 1) << "] Failed blacklist check \"" << is_bad->regex_string << "\"; skipping " << filepath << std::endl;
continue;
}
std::cerr << "[" << i << "/" << (project->entries.size() - 1)
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<< "] Dispatching index request for file " << filepath
<< std::endl;
Index_DoIndex request(Index_DoIndex::Type::Import);
request.path = filepath;
request.args = entry.args;
queue_do_index->Enqueue(std::move(request));
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}
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break;
}
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case IpcId::TextDocumentDidOpen: {
auto msg = static_cast<Ipc_TextDocumentDidOpen*>(message.get());
//std::cerr << "Opening " << msg->params.textDocument.uri.GetPath() << std::endl;
working_files->OnOpen(msg->params);
break;
}
case IpcId::TextDocumentDidChange: {
auto msg = static_cast<Ipc_TextDocumentDidChange*>(message.get());
working_files->OnChange(msg->params);
//std::cerr << "Changing " << msg->params.textDocument.uri.GetPath() << std::endl;
break;
}
case IpcId::TextDocumentDidClose: {
auto msg = static_cast<Ipc_TextDocumentDidClose*>(message.get());
//std::cerr << "Closing " << msg->params.textDocument.uri.GetPath() << std::endl;
working_files->OnClose(msg->params);
break;
}
case IpcId::TextDocumentDidSave: {
auto msg = static_cast<Ipc_TextDocumentDidSave*>(message.get());
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WorkingFile* working_file = working_files->GetFileByFilename(msg->params.textDocument.uri.GetPath());
if (working_file) {
// TODO: Update working file indexed content when we actually get the
// index update.
working_file->SetIndexContent(working_file->buffer_content);
}
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// Send an index update request.
Index_DoIndex request(Index_DoIndex::Type::Update);
optional<CompilationEntry> entry = project->FindCompilationEntryForFile(msg->params.textDocument.uri.GetPath());
request.path = msg->params.textDocument.uri.GetPath();
if (entry)
request.args = entry->args;
queue_do_index->Enqueue(std::move(request));
break;
}
case IpcId::TextDocumentRename: {
auto msg = static_cast<Ipc_TextDocumentRename*>(message.get());
QueryFileId file_id;
QueryFile* file = FindFile(db, msg->params.textDocument.uri.GetPath(), &file_id);
if (!file) {
std::cerr << "Unable to find file " << msg->params.textDocument.uri.GetPath() << std::endl;
break;
}
Out_TextDocumentRename response;
response.id = msg->id;
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for (const SymbolRef& ref : FindSymbolsAtLocation(file, msg->params.position)) {
// Found symbol. Return references to rename.
std::vector<QueryLocation> uses = GetUsesOfSymbol(db, ref.idx);
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response.result = BuildWorkspaceEdit(db, working_files, uses, msg->params.newName);
break;
}
response.Write(std::cerr);
ipc->SendOutMessageToClient(response);
break;
}
case IpcId::TextDocumentCompletion: {
auto msg = static_cast<Ipc_TextDocumentComplete*>(message.get());
lsTextDocumentPositionParams params = msg->params;
CompletionManager::OnComplete callback = std::bind([](BaseIpcMessage* message, const NonElidedVector<lsCompletionItem>& results) {
auto msg = static_cast<Ipc_TextDocumentComplete*>(message);
auto ipc = IpcManager::instance();
Out_TextDocumentComplete response;
response.id = msg->id;
response.result.isIncomplete = false;
response.result.items = results;
Timer timer;
ipc->SendOutMessageToClient(response);
timer.ResetAndPrint("Writing completion results");
delete message;
}, message.release(), std::placeholders::_1);
completion_manager->CodeComplete(params, std::move(callback));
break;
}
case IpcId::TextDocumentDefinition: {
auto msg = static_cast<Ipc_TextDocumentDefinition*>(message.get());
QueryFileId file_id;
QueryFile* file = FindFile(db, msg->params.textDocument.uri.GetPath(), &file_id);
if (!file) {
std::cerr << "Unable to find file " << msg->params.textDocument.uri.GetPath() << std::endl;
break;
}
Out_TextDocumentDefinition response;
response.id = msg->id;
int target_line = msg->params.position.line + 1;
int target_column = msg->params.position.character + 1;
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for (const SymbolRef& ref : FindSymbolsAtLocation(file, msg->params.position)) {
// Found symbol. Return definition.
// Special cases which are handled:
// - symbol has declaration but no definition (ie, pure virtual)
// - start at spelling but end at extent for better mouse tooltip
// - goto declaration while in definition of recursive type
optional<QueryLocation> def_loc = GetDefinitionSpellingOfSymbol(db, ref.idx);
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// We use spelling start and extent end because this causes vscode to
// highlight the entire definition when previewing / hoving with the
// mouse.
optional<QueryLocation> def_extent = GetDefinitionExtentOfSymbol(db, ref.idx);
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if (def_loc && def_extent)
def_loc->range.end = def_extent->range.end;
// If the cursor is currently at or in the definition we should goto
// the declaration if possible. We also want to use declarations if
// we're pointing to, ie, a pure virtual function which has no
// definition.
if (!def_loc || (def_loc->path == file_id &&
def_loc->range.Contains(target_line, target_column))) {
// Goto declaration.
std::vector<QueryLocation> declarations = GetDeclarationsOfSymbolForGotoDefinition(db, ref.idx);
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for (auto declaration : declarations) {
optional<lsLocation> ls_declaration = GetLsLocation(db, working_files, declaration);
if (ls_declaration)
response.result.push_back(*ls_declaration);
}
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// We found some declarations. Break so we don't add the definition location.
if (!response.result.empty())
break;
}
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if (def_loc)
PushBack(&response.result, GetLsLocation(db, working_files, *def_loc));
if (!response.result.empty())
break;
}
ipc->SendOutMessageToClient(response);
break;
}
case IpcId::TextDocumentDocumentHighlight: {
auto msg = static_cast<Ipc_TextDocumentDocumentHighlight*>(message.get());
QueryFileId file_id;
QueryFile* file = FindFile(db, msg->params.textDocument.uri.GetPath(), &file_id);
if (!file) {
std::cerr << "Unable to find file " << msg->params.textDocument.uri.GetPath() << std::endl;
break;
}
Out_TextDocumentDocumentHighlight response;
response.id = msg->id;
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for (const SymbolRef& ref : FindSymbolsAtLocation(file, msg->params.position)) {
// Found symbol. Return references to highlight.
std::vector<QueryLocation> uses = GetUsesOfSymbol(db, ref.idx);
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response.result.reserve(uses.size());
for (const QueryLocation& use : uses) {
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if (use.path != file_id)
continue;
optional<lsLocation> ls_location = GetLsLocation(db, working_files, use);
if (!ls_location)
continue;
lsDocumentHighlight highlight;
highlight.kind = lsDocumentHighlightKind::Text;
highlight.range = ls_location->range;
response.result.push_back(highlight);
}
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break;
}
ipc->SendOutMessageToClient(response);
break;
}
case IpcId::TextDocumentHover: {
auto msg = static_cast<Ipc_TextDocumentHover*>(message.get());
QueryFile* file = FindFile(db, msg->params.textDocument.uri.GetPath());
if (!file) {
std::cerr << "Unable to find file " << msg->params.textDocument.uri.GetPath() << std::endl;
break;
}
Out_TextDocumentHover response;
response.id = msg->id;
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for (const SymbolRef& ref : FindSymbolsAtLocation(file, msg->params.position)) {
// Found symbol. Return hover.
optional<lsRange> ls_range = GetLsRange(working_files->GetFileByFilename(file->def.path), ref.loc.range);
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if (!ls_range)
continue;
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response.result.contents = GetHoverForSymbol(db, ref.idx);
response.result.range = *ls_range;
break;
}
ipc->SendOutMessageToClient(response);
break;
}
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case IpcId::TextDocumentReferences: {
auto msg = static_cast<Ipc_TextDocumentReferences*>(message.get());
QueryFile* file = FindFile(db, msg->params.textDocument.uri.GetPath());
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if (!file) {
std::cerr << "Unable to find file " << msg->params.textDocument.uri.GetPath() << std::endl;
break;
}
Out_TextDocumentReferences response;
response.id = msg->id;
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for (const SymbolRef& ref : FindSymbolsAtLocation(file, msg->params.position)) {
optional<QueryLocation> excluded_declaration;
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if (!msg->params.context.includeDeclaration) {
std::cerr << "Excluding declaration in references" << std::endl;
excluded_declaration = GetDefinitionSpellingOfSymbol(db, ref.idx);
}
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// Found symbol. Return references.
std::vector<QueryLocation> uses = GetUsesOfSymbol(db, ref.idx);
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response.result.reserve(uses.size());
for (const QueryLocation& use : uses) {
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if (excluded_declaration.has_value() && use == *excluded_declaration)
continue;
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optional<lsLocation> ls_location = GetLsLocation(db, working_files, use);
if (ls_location)
response.result.push_back(*ls_location);
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}
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break;
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}
ipc->SendOutMessageToClient(response);
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break;
}
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case IpcId::TextDocumentDocumentSymbol: {
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auto msg = static_cast<Ipc_TextDocumentDocumentSymbol*>(message.get());
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Out_TextDocumentDocumentSymbol response;
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response.id = msg->id;
QueryFile* file = FindFile(db, msg->params.textDocument.uri.GetPath());
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if (!file) {
std::cerr << "Unable to find file " << msg->params.textDocument.uri.GetPath() << std::endl;
break;
}
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std::cerr << "File outline size is " << file->def.outline.size() << std::endl;
for (SymbolRef ref : file->def.outline) {
lsSymbolInformation info = GetSymbolInfo(db, working_files, ref.idx);
optional<lsLocation> location = GetLsLocation(db, working_files, ref.loc);
if (!location)
continue;
info.location = *location;
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response.result.push_back(info);
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}
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ipc->SendOutMessageToClient(response);
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break;
}
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case IpcId::TextDocumentCodeLens: {
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auto msg = static_cast<Ipc_TextDocumentCodeLens*>(message.get());
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Out_TextDocumentCodeLens response;
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response.id = msg->id;
lsDocumentUri file_as_uri = msg->params.textDocument.uri;
QueryFile* file = FindFile(db, file_as_uri.GetPath());
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if (!file) {
std::cerr << "Unable to find file " << msg->params.textDocument.uri.GetPath() << std::endl;
break;
}
CommonCodeLensParams common;
common.result = &response.result;
common.db = db;
common.working_files = working_files;
common.working_file = working_files->GetFileByFilename(file->def.path);
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for (SymbolRef ref : file->def.outline) {
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// NOTE: We OffsetColumn so that the code lens always show up in a
// predictable order. Otherwise, the client may randomize it.
SymbolIdx symbol = ref.idx;
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switch (symbol.kind) {
case SymbolKind::Type: {
QueryType& type = db->types[symbol.idx];
AddCodeLens(&common, ref.loc.OffsetStartColumn(0), type.uses, "ref", "refs");
AddCodeLens(&common, ref.loc.OffsetStartColumn(1), type.uses, "iref", "irefs", false /*exclude_loc*/, true /*only_interesting*/);
AddCodeLens(&common, ref.loc.OffsetStartColumn(2), ToQueryLocation(db, type.derived), "derived", "derived");
AddCodeLens(&common, ref.loc.OffsetStartColumn(3), ToQueryLocation(db, type.instantiations), "instantiation", "instantiations");
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break;
}
case SymbolKind::Func: {
QueryFunc& func = db->funcs[symbol.idx];
int offset = 0;
std::vector<QueryFuncRef> base_callers = GetCallersForAllBaseFunctions(db, func);
std::vector<QueryFuncRef> derived_callers = GetCallersForAllDerivedFunctions(db, func);
if (base_callers.empty() && derived_callers.empty()) {
// set exclude_loc to true to force the code lens to show up
AddCodeLens(&common, ref.loc.OffsetStartColumn(offset++), ToQueryLocation(db, func.callers), "call", "calls", true /*exclude_loc*/);
}
else {
AddCodeLens(&common, ref.loc.OffsetStartColumn(offset++), ToQueryLocation(db, func.callers), "direct call", "direct calls");
if (!base_callers.empty())
AddCodeLens(&common, ref.loc.OffsetStartColumn(offset++), ToQueryLocation(db, base_callers), "base call", "base calls");
if (!derived_callers.empty())
AddCodeLens(&common, ref.loc.OffsetStartColumn(offset++), ToQueryLocation(db, derived_callers), "derived call", "derived calls");
}
AddCodeLens(&common, ref.loc.OffsetStartColumn(offset++), ToQueryLocation(db, func.derived), "derived", "derived");
// "Base"
optional<QueryLocation> base_loc = GetBaseDefinitionOrDeclarationSpelling(db, func);
if (base_loc) {
optional<lsLocation> ls_base = GetLsLocation(db, working_files, *base_loc);
if (ls_base) {
optional<lsRange> range = GetLsRange(common.working_file, ref.loc.range);
if (range) {
TCodeLens code_lens;
code_lens.range = *range;
code_lens.range.start.character += offset++;
code_lens.command = lsCommand<lsCodeLensCommandArguments>();
code_lens.command->title = "Base";
code_lens.command->command = "superindex.goto";
code_lens.command->arguments.uri = ls_base->uri;
code_lens.command->arguments.position = ls_base->range.start;
response.result.push_back(code_lens);
}
}
}
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break;
}
case SymbolKind::Var: {
QueryVar& var = db->vars[symbol.idx];
AddCodeLens(&common, ref.loc.OffsetStartColumn(0), var.uses, "ref", "refs", true /*exclude_loc*/, false /*only_interesting*/);
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break;
}
case SymbolKind::File:
case SymbolKind::Invalid: {
assert(false && "unexpected");
break;
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}
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};
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}
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ipc->SendOutMessageToClient(response);
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break;
}
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case IpcId::WorkspaceSymbol: {
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auto msg = static_cast<Ipc_WorkspaceSymbol*>(message.get());
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Out_WorkspaceSymbol response;
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response.id = msg->id;
std::cerr << "- Considering " << db->detailed_names.size()
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<< " candidates for query " << msg->params.query << std::endl;
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std::string query = msg->params.query;
for (int i = 0; i < db->detailed_names.size(); ++i) {
if (response.result.size() >= config->maxWorkspaceSearchResults) {
std::cerr << "Query exceeded maximum number of responses (" << config->maxWorkspaceSearchResults << "), output may not contain all results" << std::endl;
break;
}
if (db->detailed_names[i].find(query) != std::string::npos) {
lsSymbolInformation info = GetSymbolInfo(db, working_files, db->symbols[i]);
optional<QueryLocation> location = GetDefinitionExtentOfSymbol(db, db->symbols[i]);
if (!location) {
auto decls = GetDeclarationsOfSymbolForGotoDefinition(db, db->symbols[i]);
if (decls.empty())
continue;
location = decls[0];
}
optional<lsLocation> ls_location = GetLsLocation(db, working_files, *location);
if (!ls_location)
continue;
info.location = *ls_location;
response.result.push_back(info);
}
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}
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std::cerr << "- Found " << response.result.size() << " results for query " << query << std::endl;
ipc->SendOutMessageToClient(response);
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break;
}
default: {
std::cerr << "[querydb] Unhandled IPC message " << IpcIdToString(message->method_id) << std::endl;
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exit(1);
}
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}
}
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// TODO: consider rate-limiting and checking for IPC messages so we don't block
// requests / we can serve partial requests.
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while (true) {
optional<Index_DoIdMap> request = queue_do_id_map->TryDequeue();
if (!request)
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break;
Index_OnIdMapped response;
Timer time;
if (request->previous) {
response.previous_id_map = MakeUnique<IdMap>(db, request->previous->id_cache);
response.previous_index = std::move(request->previous);
}
assert(request->current);
response.current_id_map = MakeUnique<IdMap>(db, request->current->id_cache);
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time.ResetAndPrint("Create IdMap " + request->current->path);
response.current_index = std::move(request->current);
queue_on_id_mapped->Enqueue(std::move(response));
}
while (true) {
optional<Index_OnIndexed> response = queue_on_indexed->TryDequeue();
if (!response)
break;
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Timer time;
db->ApplyIndexUpdate(&response->update);
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time.ResetAndPrint("Applying index update");
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}
}
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void QueryDbMain(IndexerConfig* config) {
//std::cerr << "Running QueryDb" << std::endl;
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// Create queues.
Index_DoIndexQueue queue_do_index;
Index_DoIdMapQueue queue_do_id_map;
Index_OnIdMappedQueue queue_on_id_mapped;
Index_OnIndexedQueue queue_on_indexed;
Project project;
WorkingFiles working_files;
CompletionManager completion_manager(config, &project, &working_files);
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FileConsumer::SharedState file_consumer_shared;
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// Start indexer threads.
std::cerr << "[querydb] Starting " << config->indexerCount << " indexers" << std::endl;
for (int i = 0; i < config->indexerCount; ++i) {
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new std::thread([&]() {
IndexMain(config, &file_consumer_shared, &queue_do_index, &queue_do_id_map, &queue_on_id_mapped, &queue_on_indexed);
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});
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}
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// Run query db main loop.
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SetCurrentThreadName("querydb");
QueryDatabase db;
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while (true) {
QueryDbMainLoop(config, &db, &queue_do_index, &queue_do_id_map, &queue_on_id_mapped, &queue_on_indexed, &project, &working_files, &completion_manager);
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std::this_thread::sleep_for(std::chrono::milliseconds(10));
}
}
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// TODO: global lock on stderr output.
// Separate thread whose only job is to read from stdin and
// dispatch read commands to the actual indexer program. This
// cannot be done on the main thread because reading from std::cin
// blocks.
//
// |ipc| is connected to a server.
void LanguageServerStdinLoop(IndexerConfig* config) {
IpcManager* ipc = IpcManager::instance();
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SetCurrentThreadName("stdin");
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while (true) {
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std::unique_ptr<BaseIpcMessage> message = MessageRegistry::instance()->ReadMessageFromStdin();
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// Message parsing can fail if we don't recognize the method.
if (!message)
continue;
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std::cerr << "[stdin] Got message \"" << IpcIdToString(message->method_id) << '"' << std::endl;
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switch (message->method_id) {
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// TODO: For simplicitly lets just proxy the initialize request like
// all other requests so that stdin loop thread becomes super simple.
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case IpcId::Initialize: {
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auto request = static_cast<Ipc_InitializeRequest*>(message.get());
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if (request->params.rootUri) {
std::string project_path = request->params.rootUri->GetPath();
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std::cerr << "[stdin] Initialize in directory " << project_path
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<< " with uri " << request->params.rootUri->raw_uri
<< std::endl;
auto open_project = MakeUnique<Ipc_OpenProject>();
open_project->project_path = project_path;
if (!request->params.initializationOptions) {
std::cerr << "Initialization parameters (particularily cacheDirectory) are required" << std::endl;
exit(1);
}
*config = *request->params.initializationOptions;
// Make sure cache directory is valid.
if (config->cacheDirectory.empty()) {
std::cerr << "No cache directory" << std::endl;
exit(1);
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}
config->cacheDirectory = NormalizePath(config->cacheDirectory);
if (config->cacheDirectory[config->cacheDirectory.size() - 1] != '/')
config->cacheDirectory += '/';
MakeDirectoryRecursive(config->cacheDirectory);
// Startup querydb now that we have initialization state.
// TODO: Pass init data to out of process querydb.
bool has_querydb = IsQueryDbProcessRunningOutOfProcess();
if (!has_querydb) {
new std::thread([&config]() {
QueryDbMain(config);
});
}
ipc->SendMessage(IpcManager::Destination::Server, std::move(open_project));
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}
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// TODO: query request->params.capabilities.textDocument and support only things
// the client supports.
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auto response = Out_InitializeResponse();
response.id = request->id;
//response.result.capabilities.textDocumentSync = lsTextDocumentSyncOptions();
//response.result.capabilities.textDocumentSync->openClose = true;
//response.result.capabilities.textDocumentSync->change = lsTextDocumentSyncKind::Full;
//response.result.capabilities.textDocumentSync->willSave = true;
//response.result.capabilities.textDocumentSync->willSaveWaitUntil = true;
response.result.capabilities.textDocumentSync = lsTextDocumentSyncKind::Incremental;
response.result.capabilities.renameProvider = true;
response.result.capabilities.completionProvider = lsCompletionOptions();
response.result.capabilities.completionProvider->resolveProvider = false;
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response.result.capabilities.completionProvider->triggerCharacters = { ".", "::", "->" };
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response.result.capabilities.codeLensProvider = lsCodeLensOptions();
response.result.capabilities.codeLensProvider->resolveProvider = false;
response.result.capabilities.definitionProvider = true;
response.result.capabilities.documentHighlightProvider = true;
response.result.capabilities.hoverProvider = true;
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response.result.capabilities.referencesProvider = true;
response.result.capabilities.documentSymbolProvider = true;
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response.result.capabilities.workspaceSymbolProvider = true;
//response.Write(std::cerr);
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response.Write(std::cout);
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break;
}
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case IpcId::Initialized: {
// TODO: don't send output until we get this notification
break;
}
case IpcId::CancelRequest: {
// TODO: support cancellation
break;
}
case IpcId::TextDocumentDidOpen:
case IpcId::TextDocumentDidChange:
case IpcId::TextDocumentDidClose:
case IpcId::TextDocumentDidSave:
case IpcId::TextDocumentRename:
case IpcId::TextDocumentCompletion:
case IpcId::TextDocumentDefinition:
case IpcId::TextDocumentDocumentHighlight:
case IpcId::TextDocumentHover:
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case IpcId::TextDocumentReferences:
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case IpcId::TextDocumentDocumentSymbol:
case IpcId::TextDocumentCodeLens:
case IpcId::WorkspaceSymbol: {
ipc->SendMessage(IpcManager::Destination::Server, std::move(message));
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break;
}
default: {
std::cerr << "[stdin] Unhandled IPC message " << IpcIdToString(message->method_id) << std::endl;
exit(1);
}
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}
}
}
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void LanguageServerMainLoop() {
IpcManager* ipc = IpcManager::instance();
std::vector<std::unique_ptr<BaseIpcMessage>> messages = ipc->GetMessages(IpcManager::Destination::Client);
for (auto& message : messages) {
std::cerr << "[server] Processing message " << IpcIdToString(message->method_id) << std::endl;
switch (message->method_id) {
case IpcId::Quit: {
std::cerr << "[server] Got quit message (exiting)" << std::endl;
exit(0);
break;
}
case IpcId::Cout: {
auto msg = static_cast<Ipc_Cout*>(message.get());
std::cout << msg->content;
std::cout.flush();
break;
}
default: {
std::cerr << "[server] Unhandled IPC message " << IpcIdToString(message->method_id) << std::endl;
exit(1);
}
}
}
}
void LanguageServerMain(IndexerConfig* config) {
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// Run language client.
new std::thread([&config]() {
LanguageServerStdinLoop(config);
});
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SetCurrentThreadName("server");
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while (true) {
LanguageServerMainLoop();
std::this_thread::sleep_for(std::chrono::milliseconds(2));
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}
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}
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int main(int argc, char** argv) {
IpcManager::CreateInstance();
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//bool loop = true;
//while (loop)
// std::this_thread::sleep_for(std::chrono::milliseconds(10));
//std::this_thread::sleep_for(std::chrono::seconds(3));
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PlatformInit();
IndexInit();
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RegisterMessageTypes();
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// if (argc == 1) {
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// QueryDbMain();
// return 0;
//}
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std::unordered_map<std::string, std::string> options =
ParseOptions(argc, argv);
if (argc == 1 || HasOption(options, "--test")) {
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doctest::Context context;
context.applyCommandLine(argc, argv);
int res = context.run();
if (context.shouldExit())
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return res;
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RunTests();
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return 0;
}
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else if (options.find("--help") != options.end()) {
std::cout << R"help(clang-querydb help:
clang-querydb is a low-latency C++ language server.
General:
--help Print this help information.
--language-server
Run as a language server. The language server will look for
an existing querydb process, otherwise it will run querydb
in-process. This implements the language server spec.
--querydb Run the querydb. The querydb stores the program index and
serves index request tasks.
--test Run tests. Does nothing if test support is not compiled in.
Configuration:
When opening up a directory, clang-querydb will look for a
compile_commands.json file emitted by your preferred build system. If not
present, clang-querydb will use a recursive directory listing instead.
Command line flags can be provided by adding a "clang_args" file in the
top-level directory. Each line in that file is a separate argument.
)help";
exit(0);
}
else if (HasOption(options, "--language-server")) {
//std::cerr << "Running language server" << std::endl;
IndexerConfig config;
LanguageServerMain(&config);
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return 0;
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}
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else if (HasOption(options, "--querydb")) {
//std::cerr << "Running querydb" << std::endl;
// TODO/FIXME: config is not shared between processes.
IndexerConfig config;
QueryDbMain(&config);
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return 0;
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}
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else {
//std::cerr << "Running language server" << std::endl;
IndexerConfig config;
LanguageServerMain(&config);
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return 0;
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}
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return 1;
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}