ccls/src/message_handler.cc

351 lines
11 KiB
C++

#include "message_handler.h"
#include "log.hh"
#include "project.h"
#include "query_utils.h"
#include "pipeline.hh"
using namespace ccls;
using namespace clang;
#include <algorithm>
MAKE_HASHABLE(SymbolIdx, t.usr, t.kind);
namespace {
struct Out_CclsSetInactiveRegion
: public lsOutMessage<Out_CclsSetInactiveRegion> {
struct Params {
lsDocumentUri uri;
std::vector<lsRange> inactiveRegions;
};
std::string method = "$ccls/setInactiveRegions";
Params params;
};
MAKE_REFLECT_STRUCT(Out_CclsSetInactiveRegion::Params, uri, inactiveRegions);
MAKE_REFLECT_STRUCT(Out_CclsSetInactiveRegion, jsonrpc, method, params);
struct ScanLineEvent {
lsPosition pos;
lsPosition end_pos; // Second key when there is a tie for insertion events.
int id;
Out_CclsPublishSemanticHighlighting::Symbol* symbol;
bool operator<(const ScanLineEvent& other) const {
// See the comments below when insertion/deletion events are inserted.
if (!(pos == other.pos))
return pos < other.pos;
if (!(other.end_pos == end_pos))
return other.end_pos < end_pos;
// This comparison essentially order Macro after non-Macro,
// So that macros will not be rendered as Var/Type/...
return symbol->kind < other.symbol->kind;
}
};
} // namespace
SemanticHighlightSymbolCache::Entry::Entry(
SemanticHighlightSymbolCache* all_caches,
const std::string& path)
: all_caches_(all_caches), path(path) {}
std::optional<int> SemanticHighlightSymbolCache::Entry::TryGetStableId(
SymbolKind kind,
const std::string& detailed_name) {
TNameToId* map = GetMapForSymbol_(kind);
auto it = map->find(detailed_name);
if (it != map->end())
return it->second;
return std::nullopt;
}
int SemanticHighlightSymbolCache::Entry::GetStableId(
SymbolKind kind,
const std::string& detailed_name) {
std::optional<int> id = TryGetStableId(kind, detailed_name);
if (id)
return *id;
// Create a new id. First try to find a key in another map.
all_caches_->cache_.IterateValues([&](const std::shared_ptr<Entry>& entry) {
std::optional<int> other_id = entry->TryGetStableId(kind, detailed_name);
if (other_id) {
id = other_id;
return false;
}
return true;
});
// Create a new id.
TNameToId* map = GetMapForSymbol_(kind);
if (!id)
id = all_caches_->next_stable_id_++;
return (*map)[detailed_name] = *id;
}
SemanticHighlightSymbolCache::Entry::TNameToId*
SemanticHighlightSymbolCache::Entry::GetMapForSymbol_(SymbolKind kind) {
switch (kind) {
case SymbolKind::Type:
return &detailed_type_name_to_stable_id;
case SymbolKind::Func:
return &detailed_func_name_to_stable_id;
case SymbolKind::Var:
return &detailed_var_name_to_stable_id;
case SymbolKind::File:
case SymbolKind::Invalid:
break;
}
assert(false);
return nullptr;
}
SemanticHighlightSymbolCache::SemanticHighlightSymbolCache()
: cache_(kCacheSize) {}
void SemanticHighlightSymbolCache::Init() {
match_ = std::make_unique<GroupMatch>(g_config->highlight.whitelist,
g_config->highlight.blacklist);
}
std::shared_ptr<SemanticHighlightSymbolCache::Entry>
SemanticHighlightSymbolCache::GetCacheForFile(const std::string& path) {
return cache_.Get(
path, [&, this]() { return std::make_shared<Entry>(this, path); });
}
MessageHandler::MessageHandler() {
// Dynamically allocate |message_handlers|, otherwise there will be static
// initialization order races.
if (!message_handlers)
message_handlers = new std::vector<MessageHandler*>();
message_handlers->push_back(this);
}
// static
std::vector<MessageHandler*>* MessageHandler::message_handlers = nullptr;
bool FindFileOrFail(DB* db,
Project* project,
std::optional<lsRequestId> id,
const std::string& absolute_path,
QueryFile** out_query_file,
int* out_file_id) {
*out_query_file = nullptr;
auto it = db->name2file_id.find(LowerPathIfInsensitive(absolute_path));
if (it != db->name2file_id.end()) {
QueryFile& file = db->files[it->second];
if (file.def) {
*out_query_file = &file;
if (out_file_id)
*out_file_id = it->second;
return true;
}
}
if (out_file_id)
*out_file_id = -1;
bool indexing;
{
std::lock_guard<std::mutex> lock(project->mutex_);
indexing = project->absolute_path_to_entry_index_.find(absolute_path) !=
project->absolute_path_to_entry_index_.end();
}
if (indexing)
LOG_S(INFO) << "\"" << absolute_path << "\" is being indexed.";
else
LOG_S(INFO) << "unable to find file \"" << absolute_path << "\"";
if (id) {
Out_Error out;
out.id = *id;
if (indexing) {
out.error.code = lsErrorCodes::ServerNotInitialized;
out.error.message = absolute_path + " is being indexed.";
} else {
out.error.code = lsErrorCodes::InternalError;
out.error.message = "Unable to find file " + absolute_path;
}
pipeline::WriteStdout(kMethodType_Unknown, out);
}
return false;
}
void EmitInactiveLines(WorkingFile* working_file,
const std::vector<Range>& inactive_regions) {
Out_CclsSetInactiveRegion out;
out.params.uri = lsDocumentUri::FromPath(working_file->filename);
for (Range skipped : inactive_regions) {
std::optional<lsRange> ls_skipped = GetLsRange(working_file, skipped);
if (ls_skipped)
out.params.inactiveRegions.push_back(*ls_skipped);
}
pipeline::WriteStdout(kMethodType_CclsPublishInactiveRegions, out);
}
void EmitSemanticHighlighting(DB* db,
SemanticHighlightSymbolCache* semantic_cache,
WorkingFile* wfile,
QueryFile* file) {
assert(file->def);
if (wfile->buffer_content.size() > g_config->largeFileSize ||
!semantic_cache->match_->IsMatch(file->def->path))
return;
auto semantic_cache_for_file =
semantic_cache->GetCacheForFile(file->def->path);
// Group symbols together.
std::unordered_map<SymbolIdx, Out_CclsPublishSemanticHighlighting::Symbol>
grouped_symbols;
for (SymbolRef sym : file->def->all_symbols) {
std::string_view detailed_name;
lsSymbolKind parent_kind = lsSymbolKind::Unknown;
lsSymbolKind kind = lsSymbolKind::Unknown;
StorageClass storage = SC_None;
// This switch statement also filters out symbols that are not highlighted.
switch (sym.kind) {
case SymbolKind::Func: {
const QueryFunc& func = db->GetFunc(sym);
const QueryFunc::Def* def = func.AnyDef();
if (!def)
continue; // applies to for loop
if (def->spell)
parent_kind = GetSymbolKind(db, *def->spell);
if (parent_kind == lsSymbolKind::Unknown) {
for (Use use : func.declarations) {
parent_kind = GetSymbolKind(db, use);
break;
}
}
// Don't highlight overloadable operators or implicit lambda ->
// std::function constructor.
std::string_view short_name = def->Name(false);
if (short_name.compare(0, 8, "operator") == 0)
continue; // applies to for loop
if (def->spell)
parent_kind = GetSymbolKind(db, *def->spell);
kind = def->kind;
storage = def->storage;
detailed_name = short_name;
// Check whether the function name is actually there.
// If not, do not publish the semantic highlight.
// E.g. copy-initialization of constructors should not be highlighted
// but we still want to keep the range for jumping to definition.
std::string_view concise_name =
detailed_name.substr(0, detailed_name.find('<'));
int16_t start_line = sym.range.start.line;
int16_t start_col = sym.range.start.column;
if (start_line < 0 || start_line >= wfile->index_lines.size())
continue;
std::string_view line = wfile->index_lines[start_line];
sym.range.end.line = start_line;
if (!(start_col + concise_name.size() <= line.size() &&
line.compare(start_col, concise_name.size(), concise_name) == 0))
continue;
sym.range.end.column = start_col + concise_name.size();
break;
}
case SymbolKind::Type:
for (auto& def : db->GetType(sym).def) {
kind = def.kind;
detailed_name = def.detailed_name;
if (def.spell) {
parent_kind = GetSymbolKind(db, *def.spell);
break;
}
}
break;
case SymbolKind::Var: {
const QueryVar& var = db->GetVar(sym);
for (auto& def : var.def) {
kind = def.kind;
storage = def.storage;
detailed_name = def.detailed_name;
if (def.spell) {
parent_kind = GetSymbolKind(db, *def.spell);
break;
}
}
if (parent_kind == lsSymbolKind::Unknown) {
for (Use use : var.declarations) {
parent_kind = GetSymbolKind(db, use);
break;
}
}
break;
}
default:
continue; // applies to for loop
}
std::optional<lsRange> loc = GetLsRange(wfile, sym.range);
if (loc) {
auto it = grouped_symbols.find(sym);
if (it != grouped_symbols.end()) {
it->second.ranges.push_back(*loc);
} else {
Out_CclsPublishSemanticHighlighting::Symbol symbol;
symbol.stableId = semantic_cache_for_file->GetStableId(
sym.kind, std::string(detailed_name));
symbol.parentKind = parent_kind;
symbol.kind = kind;
symbol.storage = storage;
symbol.ranges.push_back(*loc);
grouped_symbols[sym] = symbol;
}
}
}
// Make ranges non-overlapping using a scan line algorithm.
std::vector<ScanLineEvent> events;
int id = 0;
for (auto& entry : grouped_symbols) {
Out_CclsPublishSemanticHighlighting::Symbol& symbol = entry.second;
for (auto& loc : symbol.ranges) {
// For ranges sharing the same start point, the one with leftmost end
// point comes first.
events.push_back({loc.start, loc.end, id, &symbol});
// For ranges sharing the same end point, their relative order does not
// matter, therefore we arbitrarily assign loc.end to them. We use
// negative id to indicate a deletion event.
events.push_back({loc.end, loc.end, ~id, &symbol});
id++;
}
symbol.ranges.clear();
}
std::sort(events.begin(), events.end());
std::vector<uint8_t> deleted(id, 0);
int top = 0;
for (size_t i = 0; i < events.size(); i++) {
while (top && deleted[events[top - 1].id])
top--;
// Order [a, b0) after [a, b1) if b0 < b1. The range comes later overrides
// the ealier. The order of [a0, b) [a1, b) does not matter.
// The order of [a, b) [b, c) does not as long as we do not emit empty
// ranges.
// Attribute range [events[i-1].pos, events[i].pos) to events[top-1].symbol
// .
if (top && !(events[i - 1].pos == events[i].pos))
events[top - 1].symbol->ranges.push_back(
lsRange{events[i - 1].pos, events[i].pos});
if (events[i].id >= 0)
events[top++] = events[i];
else
deleted[~events[i].id] = 1;
}
// Publish.
Out_CclsPublishSemanticHighlighting out;
out.params.uri = lsDocumentUri::FromPath(wfile->filename);
for (auto& entry : grouped_symbols)
if (entry.second.ranges.size())
out.params.symbols.push_back(entry.second);
pipeline::WriteStdout(kMethodType_CclsPublishSemanticHighlighting, out);
}