ccls/src/messages/cquery_call_tree.cc

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#include "message_handler.h"
#include "query_utils.h"
namespace {
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struct Ipc_CqueryCallTreeInitial
: public IpcMessage<Ipc_CqueryCallTreeInitial> {
const static IpcId kIpcId = IpcId::CqueryCallTreeInitial;
lsRequestId id;
lsTextDocumentPositionParams params;
};
MAKE_REFLECT_STRUCT(Ipc_CqueryCallTreeInitial, id, params);
REGISTER_IPC_MESSAGE(Ipc_CqueryCallTreeInitial);
struct Ipc_CqueryCallTreeExpand : public IpcMessage<Ipc_CqueryCallTreeExpand> {
struct Params {
std::string usr;
};
const static IpcId kIpcId = IpcId::CqueryCallTreeExpand;
lsRequestId id;
Params params;
};
MAKE_REFLECT_STRUCT(Ipc_CqueryCallTreeExpand::Params, usr);
MAKE_REFLECT_STRUCT(Ipc_CqueryCallTreeExpand, id, params);
REGISTER_IPC_MESSAGE(Ipc_CqueryCallTreeExpand);
struct Out_CqueryCallTree : public lsOutMessage<Out_CqueryCallTree> {
enum class CallType { Direct = 0, Base = 1, Derived = 2 };
struct CallEntry {
std::string name;
std::string usr;
lsLocation location;
bool hasCallers = true;
CallType callType = CallType::Direct;
};
lsRequestId id;
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std::vector<CallEntry> result;
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};
MAKE_REFLECT_TYPE_PROXY(Out_CqueryCallTree::CallType, int);
MAKE_REFLECT_STRUCT(Out_CqueryCallTree::CallEntry,
name,
usr,
location,
hasCallers,
callType);
MAKE_REFLECT_STRUCT(Out_CqueryCallTree, jsonrpc, id, result);
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std::vector<Out_CqueryCallTree::CallEntry> BuildInitialCallTree(
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QueryDatabase* db,
WorkingFiles* working_files,
QueryFuncId root) {
QueryFunc& root_func = db->funcs[root.id];
if (!root_func.def || !root_func.def->definition_spelling)
return {};
optional<lsLocation> def_loc =
GetLsLocation(db, working_files, *root_func.def->definition_spelling);
if (!def_loc)
return {};
Out_CqueryCallTree::CallEntry entry;
entry.name = root_func.def->short_name;
entry.usr = root_func.usr;
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entry.location = *def_loc;
entry.hasCallers = HasCallersOnSelfOrBaseOrDerived(db, root_func);
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std::vector<Out_CqueryCallTree::CallEntry> result;
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result.push_back(entry);
return result;
}
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std::vector<Out_CqueryCallTree::CallEntry> BuildExpandCallTree(
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QueryDatabase* db,
WorkingFiles* working_files,
QueryFuncId root) {
QueryFunc& root_func = db->funcs[root.id];
if (!root_func.def)
return {};
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auto format_location = [&](
const lsLocation& location,
optional<QueryTypeId> declaring_type) -> std::string {
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std::string base;
if (declaring_type) {
QueryType type = db->types[declaring_type->id];
if (type.def)
base = type.def->detailed_name;
}
if (base.empty()) {
base = location.uri.GetPath();
size_t last_index = base.find_last_of('/');
if (last_index != std::string::npos)
base = base.substr(last_index + 1);
}
return base + ":" + std::to_string(location.range.start.line + 1);
};
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std::vector<Out_CqueryCallTree::CallEntry> result;
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std::unordered_set<QueryLocation> seen_locations;
auto handle_caller = [&](QueryFuncRef caller,
Out_CqueryCallTree::CallType call_type) {
optional<lsLocation> call_location =
GetLsLocation(db, working_files, caller.loc);
if (!call_location)
return;
// TODO: REMOVE |seen_locations| once we fix the querydb update bugs
// TODO: REMOVE |seen_locations| once we fix the querydb update bugs
// TODO: REMOVE |seen_locations| once we fix the querydb update bugs
// TODO: REMOVE |seen_locations| once we fix the querydb update bugs
// TODO: REMOVE |seen_locations| once we fix the querydb update bugs
// TODO: REMOVE |seen_locations| once we fix the querydb update bugs
// TODO: REMOVE |seen_locations| once we fix the querydb update bugs
// TODO: REMOVE |seen_locations| once we fix the querydb update bugs
// TODO: REMOVE |seen_locations| once we fix the querydb update bugs
// TODO: REMOVE |seen_locations| once we fix the querydb update bugs
// TODO: REMOVE |seen_locations| once we fix the querydb update bugs
// TODO: REMOVE |seen_locations| once we fix the querydb update bugs
// TODO: basically, querydb gets duplicate references inserted into it.
if (!seen_locations.insert(caller.loc).second) {
std::cerr << "!!!! FIXME DUPLICATE REFERENCE IN QUERYDB" << std::endl;
return;
}
if (caller.has_id()) {
QueryFunc& call_func = db->funcs[caller.id_.id];
if (!call_func.def)
return;
Out_CqueryCallTree::CallEntry call_entry;
call_entry.name =
call_func.def->short_name + " (" +
format_location(*call_location, call_func.def->declaring_type) + ")";
call_entry.usr = call_func.usr;
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call_entry.location = *call_location;
call_entry.hasCallers = HasCallersOnSelfOrBaseOrDerived(db, call_func);
call_entry.callType = call_type;
result.push_back(call_entry);
} else {
// TODO: See if we can do a better job here. Need more information from
// the indexer.
Out_CqueryCallTree::CallEntry call_entry;
call_entry.name = "Likely Constructor";
call_entry.usr = "no_usr";
call_entry.location = *call_location;
call_entry.hasCallers = false;
call_entry.callType = call_type;
result.push_back(call_entry);
}
};
std::vector<QueryFuncRef> base_callers =
GetCallersForAllBaseFunctions(db, root_func);
std::vector<QueryFuncRef> derived_callers =
GetCallersForAllDerivedFunctions(db, root_func);
result.reserve(root_func.callers.size() + base_callers.size() +
derived_callers.size());
for (QueryFuncRef caller : root_func.callers)
handle_caller(caller, Out_CqueryCallTree::CallType::Direct);
for (QueryFuncRef caller : base_callers) {
// Do not show calls to the base function coming from this function.
if (caller.id_ == root)
continue;
handle_caller(caller, Out_CqueryCallTree::CallType::Base);
}
for (QueryFuncRef caller : derived_callers)
handle_caller(caller, Out_CqueryCallTree::CallType::Derived);
return result;
}
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struct CqueryCallTreeInitialHandler
: BaseMessageHandler<Ipc_CqueryCallTreeInitial> {
void Run(Ipc_CqueryCallTreeInitial* request) override {
QueryFile* file;
if (!FindFileOrFail(db, request->id,
request->params.textDocument.uri.GetPath(), &file)) {
return;
}
WorkingFile* working_file =
working_files->GetFileByFilename(file->def->path);
Out_CqueryCallTree out;
out.id = request->id;
for (const SymbolRef& ref :
FindSymbolsAtLocation(working_file, file, request->params.position)) {
if (ref.idx.kind == SymbolKind::Func) {
out.result =
BuildInitialCallTree(db, working_files, QueryFuncId(ref.idx.idx));
break;
}
}
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QueueManager::WriteStdout(IpcId::CqueryCallTreeInitial, out);
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}
};
REGISTER_MESSAGE_HANDLER(CqueryCallTreeInitialHandler);
struct CqueryCallTreeExpandHandler
: BaseMessageHandler<Ipc_CqueryCallTreeExpand> {
void Run(Ipc_CqueryCallTreeExpand* request) override {
Out_CqueryCallTree out;
out.id = request->id;
auto func_id = db->usr_to_func.find(request->params.usr);
if (func_id != db->usr_to_func.end())
out.result = BuildExpandCallTree(db, working_files, func_id->second);
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QueueManager::WriteStdout(IpcId::CqueryCallTreeExpand, out);
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}
};
REGISTER_MESSAGE_HANDLER(CqueryCallTreeExpandHandler);
} // namespace