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 "diagnostics_engine.h"
#include "lsp.h"
#include "message_handler.h"
#include "platform.h"
#include "project.h"
#include "query_utils.h"
#include "queue_manager.h"
#include "timer.h"
#include <doctest/doctest.h>
#include <loguru.hpp>
#include <chrono>
namespace {
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// 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.
//
// |from|: The file which generated the parse request for this file.
bool FileNeedsParse(int64_t write_time,
VFS* vfs,
bool is_interactive,
IndexFile* opt_previous_index,
const std::string& path,
const std::vector<std::string>& args,
const std::optional<std::string>& from) {
{
std::lock_guard<std::mutex> lock(vfs->mutex);
if (vfs->state[path].timestamp < write_time) {
LOG_S(INFO) << "timestamp changed for " << path
<< (from ? " (via " + *from + ")" : std::string());
return true;
}
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}
// Command-line arguments changed.
auto is_file = [](const std::string& arg) {
return EndsWithAny(arg, {".h", ".c", ".cc", ".cpp", ".hpp", ".m", ".mm"});
};
if (opt_previous_index) {
auto& prev_args = opt_previous_index->args;
bool same = prev_args.size() == args.size();
for (size_t i = 0; i < args.size() && same; ++i) {
same = prev_args[i] == args[i] ||
(is_file(prev_args[i]) && is_file(args[i]));
}
if (!same) {
LOG_S(INFO) << "args changed for " << path << (from ? " (via " + *from + ")" : std::string());
return true;
}
}
return false;
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};
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bool Indexer_Parse(DiagnosticsEngine* diag_engine,
WorkingFiles* working_files,
Project* project,
VFS* vfs,
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ClangIndexer* indexer) {
auto* queue = QueueManager::instance();
std::optional<Index_Request> opt_request = queue->index_request.TryPopFront();
if (!opt_request)
return false;
auto& request = *opt_request;
ICacheManager cache;
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// Dummy one to trigger refresh semantic highlight.
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if (request.path.empty()) {
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IndexUpdate dummy;
dummy.refresh = true;
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queue->on_indexed.PushBack(
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Index_OnIndexed(std::move(dummy), PerformanceImportFile()), false);
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return false;
}
Project::Entry entry;
{
std::lock_guard<std::mutex> lock(project->mutex_);
auto it = project->absolute_path_to_entry_index_.find(request.path);
if (it != project->absolute_path_to_entry_index_.end())
entry = project->entries[it->second];
else {
entry.filename = request.path;
entry.args = request.args;
}
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}
std::string path_to_index = entry.filename;
std::unique_ptr<IndexFile> prev;
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// Try to load the file from cache.
std::optional<int64_t> write_time = LastWriteTime(path_to_index);
if (!write_time)
return true;
// FIXME Don't drop
if (!vfs->Mark(path_to_index, g_thread_id, 1))
return true;
int reparse; // request.is_interactive;
prev = cache.RawCacheLoad(path_to_index);
if (!prev)
reparse = 2;
else {
reparse = vfs->Stamp(path_to_index, prev->last_write_time);
if (FileNeedsParse(*write_time, vfs, request.is_interactive, &*prev,
path_to_index, entry.args, std::nullopt))
reparse = 2;
for (const auto& dep : prev->dependencies)
if (auto write_time1 = LastWriteTime(dep.first)) {
if (dep.second < *write_time1) {
reparse = 2;
std::lock_guard<std::mutex> lock(vfs->mutex);
vfs->state[dep.first].stage = 0;
}
} else
reparse = 2;
}
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if (reparse < 2) {
PerformanceImportFile perf;
auto dependencies = prev->dependencies;
if (reparse) {
IndexUpdate update = IndexUpdate::CreateDelta(nullptr, prev.get());
queue->on_indexed.PushBack(Index_OnIndexed(std::move(update), perf),
request.is_interactive);
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}
for (const auto& dep : dependencies)
if (vfs->Mark(dep.first, 0, 2)) {
prev = cache.RawCacheLoad(dep.first);
IndexUpdate update = IndexUpdate::CreateDelta(nullptr, prev.get());
queue->on_indexed.PushBack(Index_OnIndexed(std::move(update), perf),
request.is_interactive);
}
std::lock_guard<std::mutex> lock(vfs->mutex);
VFS::State& state = vfs->state[path_to_index];
if (state.owner == g_thread_id)
state.stage = 0;
return true;
}
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LOG_S(INFO) << "parse " << path_to_index;
std::vector<Index_OnIdMapped> result;
PerformanceImportFile perf;
auto indexes = indexer->Index(vfs, path_to_index, entry.args, {}, &perf);
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if (indexes.empty()) {
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if (g_config->index.enabled && request.id.Valid()) {
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Out_Error out;
out.id = request.id;
out.error.code = lsErrorCodes::InternalError;
out.error.message = "Failed to index " + path_to_index;
QueueManager::WriteStdout(kMethodType_Unknown, out);
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}
vfs->Reset(path_to_index);
return true;
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}
for (std::unique_ptr<IndexFile>& curr : indexes) {
// Only emit diagnostics for non-interactive sessions, which makes it easier
// to identify indexing problems. For interactive sessions, diagnostics are
// handled by code completion.
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if (!request.is_interactive)
diag_engine->Publish(working_files, curr->path, curr->diagnostics_);
std::string path = curr->path;
if (!(vfs->Stamp(path, curr->last_write_time) || path == path_to_index))
continue;
LOG_S(INFO) << "emit index for " << path;
prev = cache.RawCacheLoad(path);
// Write current index to disk if requested.
LOG_S(INFO) << "store index for " << path;
Timer time;
cache.WriteToCache(*curr);
perf.index_save_to_disk = time.ElapsedMicrosecondsAndReset();
vfs->Reset(path_to_index);
if (entry.id >= 0) {
std::lock_guard<std::mutex> lock(project->mutex_);
for (auto& dep : curr->dependencies)
project->absolute_path_to_entry_index_[dep.first] = entry.id;
}
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// Build delta update.
IndexUpdate update = IndexUpdate::CreateDelta(prev.get(), curr.get());
perf.index_make_delta = time.ElapsedMicrosecondsAndReset();
LOG_S(INFO) << "built index for " << path << " (is_delta=" << !!prev << ")";
Index_OnIndexed reply(std::move(update), perf);
queue->on_indexed.PushBack(std::move(reply), request.is_interactive);
}
return true;
}
} // namespace
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void Indexer_Main(DiagnosticsEngine* diag_engine,
VFS* vfs,
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ImportPipelineStatus* status,
Project* project,
WorkingFiles* working_files,
MultiQueueWaiter* waiter) {
auto* queue = QueueManager::instance();
// Build one index per-indexer, as building the index acquires a global lock.
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ClangIndexer indexer;
while (true)
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if (!Indexer_Parse(diag_engine, working_files, project, vfs, &indexer))
waiter->Wait(&queue->index_request);
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}
namespace {
void QueryDb_OnIndexed(QueueManager* queue,
QueryDatabase* db,
ImportPipelineStatus* status,
SemanticHighlightSymbolCache* semantic_cache,
WorkingFiles* working_files,
Index_OnIndexed* response) {
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if (response->update.refresh) {
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LOG_S(INFO) << "Loaded project. Refresh semantic highlight for all working file.";
std::lock_guard<std::mutex> lock(working_files->files_mutex);
for (auto& f : working_files->files) {
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std::string filename = LowerPathIfInsensitive(f->filename);
if (db->name2file_id.find(filename) == db->name2file_id.end())
continue;
QueryFile* file = &db->files[db->name2file_id[filename]];
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EmitSemanticHighlighting(db, semantic_cache, f.get(), file);
}
return;
}
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Timer time;
db->ApplyIndexUpdate(&response->update);
// Update indexed content, inactive lines, and semantic highlighting.
if (response->update.files_def_update) {
auto& update = *response->update.files_def_update;
time.ResetAndPrint("apply index for " + update.value.path);
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WorkingFile* working_file =
working_files->GetFileByFilename(update.value.path);
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if (working_file) {
// Update indexed content.
working_file->SetIndexContent(update.file_content);
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// Inactive lines.
EmitInactiveLines(working_file, update.value.inactive_regions);
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// Semantic highlighting.
int file_id =
db->name2file_id[LowerPathIfInsensitive(working_file->filename)];
QueryFile* file = &db->files[file_id];
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EmitSemanticHighlighting(db, semantic_cache, working_file, file);
}
}
}
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} // namespace
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bool QueryDb_ImportMain(QueryDatabase* db,
ImportPipelineStatus* status,
SemanticHighlightSymbolCache* semantic_cache,
WorkingFiles* working_files) {
auto* queue = QueueManager::instance();
bool did_work = false;
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for (int i = 80; i--; ) {
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std::optional<Index_OnIndexed> response = queue->on_indexed.TryPopFront();
if (!response)
break;
did_work = true;
QueryDb_OnIndexed(queue, db, status, semantic_cache, working_files,
&*response);
}
return did_work;
}