ccls/src/import_pipeline.cc

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#include "import_pipeline.h"
#include "cache_manager.h"
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#include "config.h"
#include "import_manager.h"
#include "language_server_api.h"
#include "message_handler.h"
#include "platform.h"
#include "project.h"
#include "query_utils.h"
#include "queue_manager.h"
#include "timer.h"
#include "timestamp_manager.h"
#include <doctest/doctest.h>
#include <loguru.hpp>
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#include <memory>
#include <string>
#include <vector>
namespace {
// Send indexing progress to client if reporting is enabled.
void EmitProgress(Config* config) {
if (config->enableProgressReports) {
auto* queue = QueueManager::instance();
Out_Progress out;
out.params.indexRequestCount = queue->index_request.Size();
out.params.doIdMapCount = queue->do_id_map.Size();
out.params.loadPreviousIndexCount = queue->load_previous_index.Size();
out.params.onIdMappedCount = queue->on_id_mapped.Size();
out.params.onIndexedCount = queue->on_indexed.Size();
QueueManager::WriteStdout(IpcId::Unknown, out);
}
}
enum class FileParseQuery { NeedsParse, DoesNotNeedParse, NoSuchFile };
std::vector<Index_DoIdMap> DoParseFile(
Config* config,
WorkingFiles* working_files,
ClangIndex* index,
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FileConsumerSharedState* file_consumer_shared,
TimestampManager* timestamp_manager,
ImportManager* import_manager,
ICacheManager* cache_manager,
bool is_interactive,
const std::string& path,
const std::vector<std::string>& args,
const FileContents& contents) {
std::vector<Index_DoIdMap> result;
// Always run this block, even if we are interactive, so we can check
// dependencies and reset files in |file_consumer_shared|.
IndexFile* previous_index = cache_manager->TryLoad(path);
if (previous_index) {
// If none of the dependencies have changed and the index is not
// interactive (ie, requested by a file save), skip parsing and just load
// from cache.
// Checks if |path| needs to be reparsed. This will modify cached state
// such that calling this function twice with the same path may return true
// the first time but will return false the second.
auto file_needs_parse = [&](const std::string& path, bool is_dependency) {
// If the file is a dependency but another file as already imported it,
// don't bother.
if (!is_interactive && is_dependency &&
!import_manager->TryMarkDependencyImported(path)) {
return FileParseQuery::DoesNotNeedParse;
}
optional<int64_t> modification_timestamp = GetLastModificationTime(path);
// Cannot find file.
if (!modification_timestamp)
return FileParseQuery::NoSuchFile;
optional<int64_t> last_cached_modification =
timestamp_manager->GetLastCachedModificationTime(cache_manager, path);
// File has been changed.
if (!last_cached_modification ||
modification_timestamp != *last_cached_modification) {
file_consumer_shared->Reset(path);
timestamp_manager->UpdateCachedModificationTime(
path, *modification_timestamp);
return FileParseQuery::NeedsParse;
}
// File has not changed, do not parse it.
return FileParseQuery::DoesNotNeedParse;
};
// Check timestamps and update |file_consumer_shared|.
FileParseQuery path_state = file_needs_parse(path, false /*is_dependency*/);
// Target file does not exist on disk, do not emit any indexes.
// TODO: Dependencies should be reassigned to other files. We can do this by
// updating the "primary_file" if it doesn't exist. Might not actually be a
// problem in practice.
if (path_state == FileParseQuery::NoSuchFile)
return result;
bool needs_reparse =
is_interactive || path_state == FileParseQuery::NeedsParse;
for (const std::string& dependency : previous_index->dependencies) {
assert(!dependency.empty());
// note: Use != as there are multiple failure results for FileParseQuery.
if (file_needs_parse(dependency, true /*is_dependency*/) !=
FileParseQuery::DoesNotNeedParse) {
LOG_S(INFO) << "Timestamp has changed for " << dependency << " (via "
<< previous_index->path << ")";
needs_reparse = true;
// SUBTLE: Do not break here, as |file_consumer_shared| is updated
// inside of |file_needs_parse|.
}
}
// No timestamps changed - load directly from cache.
if (!needs_reparse) {
LOG_S(INFO) << "Skipping parse; no timestamp change for " << path;
// TODO/FIXME: real perf
PerformanceImportFile perf;
result.push_back(Index_DoIdMap(cache_manager->TakeOrLoad(path), perf,
is_interactive, false /*write_to_disk*/));
for (const std::string& dependency : previous_index->dependencies) {
// Only load a dependency if it is not already loaded.
//
// This is important for perf in large projects where there are lots of
// dependencies shared between many files.
if (!file_consumer_shared->Mark(dependency))
continue;
LOG_S(INFO) << "Emitting index result for " << dependency << " (via "
<< previous_index->path << ")";
std::unique_ptr<IndexFile> dependency_index =
cache_manager->TryTakeOrLoad(dependency);
// |dependency_index| may be null if there is no cache for it but
// another file has already started importing it.
if (!dependency_index)
continue;
result.push_back(Index_DoIdMap(std::move(dependency_index), perf,
is_interactive,
false /*write_to_disk*/));
}
return result;
}
}
LOG_S(INFO) << "Parsing " << path;
// Load file contents for all dependencies into memory. If the dependencies
// for the file changed we may not end up using all of the files we
// preloaded. If a new dependency was added the indexer will grab the file
// contents as soon as possible.
//
// We do this to minimize the race between indexing a file and capturing the
// file contents.
//
// TODO: We might be able to optimize perf by only copying for files in
// working_files. We can pass that same set of files to the indexer as
// well. We then default to a fast file-copy if not in working set.
bool loaded_primary = contents.path == path;
std::vector<FileContents> file_contents = {contents};
cache_manager->IterateLoadedCaches([&](IndexFile* index) {
// FIXME: ReadContent should go through |cache_manager|.
optional<std::string> index_content = ReadContent(index->path);
if (!index_content) {
LOG_S(ERROR) << "Failed to load index content for " << index->path;
return;
}
file_contents.push_back(FileContents(index->path, *index_content));
loaded_primary = loaded_primary || index->path == path;
});
if (!loaded_primary) {
optional<std::string> content = ReadContent(path);
if (!content) {
LOG_S(ERROR) << "Skipping index (file cannot be found): " << path;
return result;
}
file_contents.push_back(FileContents(path, *content));
}
PerformanceImportFile perf;
std::vector<std::unique_ptr<IndexFile>> indexes = Parse(
config, file_consumer_shared, path, args, file_contents, &perf, index);
for (std::unique_ptr<IndexFile>& new_index : indexes) {
Timer time;
// Only emit diagnostics for non-interactive sessions, which makes it easier
// to identify indexing problems. For interactive sessions, diagnostics are
// handled by code completion.
if (!is_interactive)
EmitDiagnostics(working_files, new_index->path, new_index->diagnostics_);
// When main thread does IdMap request it will request the previous index if
// needed.
LOG_S(INFO) << "Emitting index result for " << new_index->path;
result.push_back(Index_DoIdMap(std::move(new_index), perf, is_interactive,
true /*write_to_disk*/));
}
return result;
}
std::vector<Index_DoIdMap> ParseFile(
Config* config,
WorkingFiles* working_files,
ClangIndex* index,
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FileConsumerSharedState* file_consumer_shared,
TimestampManager* timestamp_manager,
ImportManager* import_manager,
bool is_interactive,
const Project::Entry& entry,
const std::string& contents) {
FileContents file_contents(entry.filename, contents);
std::unique_ptr<ICacheManager> cache_manager = ICacheManager::Make(config);
// Try to determine the original import file by loading the file from cache.
// This lets the user request an index on a header file, which clang will
// complain about if indexed by itself.
IndexFile* entry_cache = cache_manager->TryLoad(entry.filename);
std::string tu_path = entry_cache ? entry_cache->import_file : entry.filename;
return DoParseFile(config, working_files, index, file_consumer_shared,
timestamp_manager, import_manager, cache_manager.get(),
is_interactive, tu_path, entry.args, file_contents);
}
bool IndexMain_DoParse(Config* config,
WorkingFiles* working_files,
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FileConsumerSharedState* file_consumer_shared,
TimestampManager* timestamp_manager,
ImportManager* import_manager,
ClangIndex* index) {
auto* queue = QueueManager::instance();
optional<Index_Request> request = queue->index_request.TryDequeue();
if (!request)
return false;
Project::Entry entry;
entry.filename = request->path;
entry.args = request->args;
std::vector<Index_DoIdMap> responses = ParseFile(
config, working_files, index, file_consumer_shared, timestamp_manager,
import_manager, request->is_interactive, entry, request->contents);
// Don't bother sending an IdMap request if there are no responses.
if (responses.empty())
return false;
// EnqueueAll will clear |responses|.
queue->do_id_map.EnqueueAll(std::move(responses));
return true;
}
bool IndexMain_DoCreateIndexUpdate(Config* config,
TimestampManager* timestamp_manager) {
auto* queue = QueueManager::instance();
optional<Index_OnIdMapped> response = queue->on_id_mapped.TryDequeue();
if (!response)
return false;
Timer time;
IdMap* previous_id_map = nullptr;
IndexFile* previous_index = nullptr;
if (response->previous) {
previous_id_map = response->previous->ids.get();
previous_index = response->previous->file.get();
}
// Build delta update.
IndexUpdate update =
IndexUpdate::CreateDelta(previous_id_map, response->current->ids.get(),
previous_index, response->current->file.get());
response->perf.index_make_delta = time.ElapsedMicrosecondsAndReset();
LOG_S(INFO) << "Built index update for " << response->current->file->path
<< " (is_delta=" << !!response->previous << ")";
// Write current index to disk if requested.
if (response->write_to_disk) {
LOG_S(INFO) << "Writing cached index to disk for "
<< response->current->file->path;
time.Reset();
WriteToCache(config, *response->current->file);
response->perf.index_save_to_disk = time.ElapsedMicrosecondsAndReset();
timestamp_manager->UpdateCachedModificationTime(
response->current->file->path,
response->current->file->last_modification_time);
}
#if false
#define PRINT_SECTION(name) \
if (response->perf.name) { \
total += response->perf.name; \
output << " " << #name << ": " << FormatMicroseconds(response->perf.name); \
}
std::stringstream output;
long long total = 0;
output << "[perf]";
PRINT_SECTION(index_parse);
PRINT_SECTION(index_build);
PRINT_SECTION(index_save_to_disk);
PRINT_SECTION(index_load_cached);
PRINT_SECTION(querydb_id_map);
PRINT_SECTION(index_make_delta);
output << "\n total: " << FormatMicroseconds(total);
output << " path: " << response->current_index->path;
LOG_S(INFO) << output.rdbuf();
#undef PRINT_SECTION
if (response->is_interactive)
LOG_S(INFO) << "Applying IndexUpdate" << std::endl << update.ToString();
#endif
Index_OnIndexed reply(update, response->perf);
queue->on_indexed.Enqueue(std::move(reply));
return true;
}
bool IndexMain_LoadPreviousIndex(ICacheManager* cache_manager) {
auto* queue = QueueManager::instance();
optional<Index_DoIdMap> response = queue->load_previous_index.TryDequeue();
if (!response)
return false;
response->previous = cache_manager->TryTakeOrLoad(response->current->path);
LOG_IF_S(ERROR, !response->previous)
<< "Unable to load previous index for already imported index "
<< response->current->path;
queue->do_id_map.Enqueue(std::move(*response));
return true;
}
bool IndexMergeIndexUpdates() {
auto* queue = QueueManager::instance();
optional<Index_OnIndexed> root = queue->on_indexed.TryDequeue();
if (!root)
return false;
bool did_merge = false;
while (true) {
optional<Index_OnIndexed> to_join = queue->on_indexed.TryDequeue();
if (!to_join) {
queue->on_indexed.Enqueue(std::move(*root));
return did_merge;
}
did_merge = true;
Timer time;
root->update.Merge(to_join->update);
// time.ResetAndPrint("Joined querydb updates for files: " +
// StringJoinMap(root->update.files_def_update,
//[](const QueryFile::DefUpdate& update) {
// return update.path;
//}));
}
}
} // namespace
ImportPipelineStatus::ImportPipelineStatus() : num_active_threads(0) {}
// Index a file using an already-parsed translation unit from code completion.
// Since most of the time for indexing a file comes from parsing, we can do
// real-time indexing.
// TODO: add option to disable this.
void IndexWithTuFromCodeCompletion(
FileConsumerSharedState* file_consumer_shared,
ClangTranslationUnit* tu,
const std::vector<CXUnsavedFile>& file_contents,
const std::string& path,
const std::vector<std::string>& args) {
file_consumer_shared->Reset(path);
PerformanceImportFile perf;
ClangIndex index;
std::vector<std::unique_ptr<IndexFile>> indexes = ParseWithTu(
file_consumer_shared, &perf, tu, &index, path, args, file_contents);
std::vector<Index_DoIdMap> result;
for (std::unique_ptr<IndexFile>& new_index : indexes) {
Timer time;
// When main thread does IdMap request it will request the previous index if
// needed.
LOG_S(INFO) << "Emitting index result for " << new_index->path;
result.push_back(Index_DoIdMap(std::move(new_index), perf,
true /*is_interactive*/,
true /*write_to_disk*/));
}
LOG_IF_S(WARNING, result.size() > 1)
<< "Code completion index update generated more than one index";
QueueManager::instance()->do_id_map.EnqueueAll(std::move(result));
}
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void Indexer_Main(Config* config,
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FileConsumerSharedState* file_consumer_shared,
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TimestampManager* timestamp_manager,
ImportManager* import_manager,
ImportPipelineStatus* status,
Project* project,
WorkingFiles* working_files,
MultiQueueWaiter* waiter) {
std::unique_ptr<ICacheManager> cache_manager = ICacheManager::Make(config);
auto* queue = QueueManager::instance();
// Build one index per-indexer, as building the index acquires a global lock.
ClangIndex index;
while (true) {
status->num_active_threads++;
EmitProgress(config);
// 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.
// We need to make sure to run both IndexMain_DoParse and
// IndexMain_DoCreateIndexUpdate so we don't starve querydb from doing any
// work. Running both also lets the user query the partially constructed
// index.
bool did_parse =
IndexMain_DoParse(config, working_files, file_consumer_shared,
timestamp_manager, import_manager, &index);
bool did_create_update =
IndexMain_DoCreateIndexUpdate(config, timestamp_manager);
bool did_load_previous = IndexMain_LoadPreviousIndex(cache_manager.get());
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// Nothing to index and no index updates to create, so join some already
// created index updates to reduce work on querydb thread.
bool did_merge = false;
if (!did_parse && !did_create_update && !did_load_previous)
did_merge = IndexMergeIndexUpdates();
status->num_active_threads--;
// We didn't do any work, so wait for a notification.
if (!did_parse && !did_create_update && !did_merge && !did_load_previous) {
waiter->Wait(&queue->on_indexed, &queue->index_request,
&queue->on_id_mapped, &queue->load_previous_index);
}
}
}
bool QueryDb_ImportMain(Config* config,
QueryDatabase* db,
ImportManager* import_manager,
SemanticHighlightSymbolCache* semantic_cache,
WorkingFiles* working_files) {
std::unique_ptr<ICacheManager> cache_manager = ICacheManager::Make(config);
auto* queue = QueueManager::instance();
EmitProgress(config);
bool did_work = false;
while (true) {
optional<Index_DoIdMap> request = queue->do_id_map.TryDequeue();
if (!request)
break;
did_work = true;
assert(request->current);
// If the request does not have previous state and we have already imported
// it, load the previous state from disk and rerun IdMap logic later. Do not
// do this if we have already attempted in the past.
if (!request->load_previous && !request->previous &&
db->usr_to_file.find(LowerPathIfCaseInsensitive(
request->current->path)) != db->usr_to_file.end()) {
assert(!request->load_previous);
request->load_previous = true;
queue->load_previous_index.Enqueue(std::move(*request));
continue;
}
// Check if the file is already being imported into querydb. If it is, drop
// the request.
//
// Note, we must do this *after* we have checked for the previous index,
// otherwise we will never actually generate the IdMap.
if (!import_manager->StartQueryDbImport(request->current->path)) {
LOG_S(INFO) << "Dropping index as it is already being imported for "
<< request->current->path;
continue;
}
Index_OnIdMapped response(request->perf, request->is_interactive,
request->write_to_disk);
Timer time;
auto make_map = [db](std::unique_ptr<IndexFile> file)
-> std::unique_ptr<Index_OnIdMapped::File> {
if (!file)
return nullptr;
auto id_map = MakeUnique<IdMap>(db, file->id_cache);
return MakeUnique<Index_OnIdMapped::File>(std::move(file),
std::move(id_map));
};
response.current = make_map(std::move(request->current));
response.previous = make_map(std::move(request->previous));
response.perf.querydb_id_map = time.ElapsedMicrosecondsAndReset();
queue->on_id_mapped.Enqueue(std::move(response));
}
while (true) {
optional<Index_OnIndexed> response = queue->on_indexed.TryDequeue();
if (!response)
break;
did_work = true;
Timer time;
for (auto& updated_file : response->update.files_def_update) {
// TODO: We're reading a file on querydb thread. This is slow!! If this
// a real problem in practice we can load the file in a previous stage.
// It should be fine though because we only do it if the user has the
// file open.
WorkingFile* working_file =
working_files->GetFileByFilename(updated_file.path);
if (working_file) {
optional<std::string> cached_file_contents =
cache_manager->LoadCachedFileContents(updated_file.path);
if (cached_file_contents)
working_file->SetIndexContent(*cached_file_contents);
else
working_file->SetIndexContent(working_file->buffer_content);
time.ResetAndPrint(
"Update WorkingFile index contents (via disk load) for " +
updated_file.path);
// Update inactive region.
EmitInactiveLines(working_file, updated_file.inactive_regions);
}
}
time.Reset();
db->ApplyIndexUpdate(&response->update);
time.ResetAndPrint("Applying index update for " +
StringJoinMap(response->update.files_def_update,
[](const QueryFile::DefUpdate& value) {
return value.path;
}));
// Update semantic highlighting.
for (auto& updated_file : response->update.files_def_update) {
WorkingFile* working_file =
working_files->GetFileByFilename(updated_file.path);
if (working_file) {
QueryFileId file_id =
db->usr_to_file[LowerPathIfCaseInsensitive(working_file->filename)];
QueryFile* file = &db->files[file_id.id];
EmitSemanticHighlighting(db, semantic_cache, working_file, file);
}
}
// Mark the files as being done in querydb stage after we apply the index
// update.
for (auto& updated_file : response->update.files_def_update)
import_manager->DoneQueryDbImport(updated_file.path);
}
return did_work;
}
#if false
TEST_SUITE("ImportPipeline") {
TEST_CASE("hello") {
MultiQueueWaiter waiter;
QueueManager::CreateInstance(&waiter);
auto* queue = QueueManager::instance();
std::string path = "foo.cc";
std::vector<std::string> args = {};
bool is_interactive = false;
optional<std::string> contents = std::string("void foo();");
queue->index_request.Enqueue(
Index_Request(path, args, is_interactive, contents));
Config config;
WorkingFiles working_files;
FileConsumerSharedState file_consumer_shared;
TimestampManager timestamp_manager;
ImportManager import_manager;
ClangIndex index;
IndexMain_DoParse(&config, &working_files, &file_consumer_shared,
&timestamp_manager, &import_manager, &index);
REQUIRE(queue->index_request.Size() == 0);
REQUIRE(queue->do_id_map.Size() == 1);
}
}
#endif