#include "BackgroundSlicingProcess.hpp" #include "GUI_App.hpp" #include #include #include // For zipped archive creation #include #include #include // Print now includes tbb, and tbb includes Windows. This breaks compilation of wxWidgets if included before wx. #include "libslic3r/Print.hpp" #include "libslic3r/SLAPrint.hpp" #include "libslic3r/Utils.hpp" #include "libslic3r/GCode/PostProcessor.hpp" #include "libslic3r/GCode/PreviewData.hpp" #include "libslic3r/libslic3r.h" #include #include #include #include #include #include #include #include #include #include "I18N.hpp" namespace Slic3r { BackgroundSlicingProcess::BackgroundSlicingProcess() { boost::filesystem::path temp_path(wxStandardPaths::Get().GetTempDir().utf8_str().data()); temp_path /= (boost::format(".%1%.gcode") % get_current_pid()).str(); m_temp_output_path = temp_path.string(); } BackgroundSlicingProcess::~BackgroundSlicingProcess() { this->stop(); this->join_background_thread(); boost::nowide::remove(m_temp_output_path.c_str()); } bool BackgroundSlicingProcess::select_technology(PrinterTechnology tech) { bool changed = false; if (m_print == nullptr || m_print->technology() != tech) { if (m_print != nullptr) this->reset(); switch (tech) { case ptFFF: m_print = m_fff_print; break; case ptSLA: m_print = m_sla_print; break; } changed = true; } assert(m_print != nullptr); return changed; } PrinterTechnology BackgroundSlicingProcess::current_printer_technology() const { return m_print->technology(); } // This function may one day be merged into the Print, but historically the print was separated // from the G-code generator. void BackgroundSlicingProcess::process_fff() { assert(m_print == m_fff_print); m_print->process(); wxQueueEvent(GUI::wxGetApp().mainframe->m_plater, new wxCommandEvent(m_event_slicing_completed_id)); m_fff_print->export_gcode(m_temp_output_path, m_gcode_preview_data); if (this->set_step_started(bspsGCodeFinalize)) { if (! m_export_path.empty()) { //FIXME localize the messages // Perform the final post-processing of the export path by applying the print statistics over the file name. std::string export_path = m_fff_print->print_statistics().finalize_output_path(m_export_path); if (copy_file(m_temp_output_path, export_path) != 0) throw std::runtime_error(_utf8(L("Copying of the temporary G-code to the output G-code failed"))); m_print->set_status(95, _utf8(L("Running post-processing scripts"))); run_post_process_scripts(export_path, m_fff_print->config()); m_print->set_status(100, (boost::format(_utf8(L("G-code file exported to %1%"))) % export_path).str()); } else if (! m_upload_job.empty()) { prepare_upload(); } else { m_print->set_status(100, _utf8(L("Slicing complete"))); } this->set_step_done(bspsGCodeFinalize); } } void BackgroundSlicingProcess::process_sla() { assert(m_print == m_sla_print); m_print->process(); if (this->set_step_started(bspsGCodeFinalize)) { if (! m_export_path.empty()) { const std::string export_path = m_sla_print->print_statistics().finalize_output_path(m_export_path); m_sla_print->export_raster(export_path); m_print->set_status(100, (boost::format(_utf8(L("Masked SLA file exported to %1%"))) % export_path).str()); } else if (! m_upload_job.empty()) { prepare_upload(); } else { m_print->set_status(100, _utf8(L("Slicing complete"))); } this->set_step_done(bspsGCodeFinalize); } } void BackgroundSlicingProcess::thread_proc() { assert(m_print != nullptr); assert(m_print == m_fff_print || m_print == m_sla_print); std::unique_lock lck(m_mutex); // Let the caller know we are ready to run the background processing task. m_state = STATE_IDLE; lck.unlock(); m_condition.notify_one(); for (;;) { assert(m_state == STATE_IDLE || m_state == STATE_CANCELED || m_state == STATE_FINISHED); // Wait until a new task is ready to be executed, or this thread should be finished. lck.lock(); m_condition.wait(lck, [this](){ return m_state == STATE_STARTED || m_state == STATE_EXIT; }); if (m_state == STATE_EXIT) // Exiting this thread. break; // Process the background slicing task. m_state = STATE_RUNNING; lck.unlock(); std::string error; try { assert(m_print != nullptr); switch(m_print->technology()) { case ptFFF: this->process_fff(); break; case ptSLA: this->process_sla(); break; default: m_print->process(); break; } } catch (CanceledException & /* ex */) { // Canceled, this is all right. assert(m_print->canceled()); } catch (std::exception &ex) { error = ex.what(); } catch (...) { error = "Unknown C++ exception."; } m_print->finalize(); lck.lock(); m_state = m_print->canceled() ? STATE_CANCELED : STATE_FINISHED; if (m_print->cancel_status() != Print::CANCELED_INTERNAL) { // Only post the canceled event, if canceled by user. // Don't post the canceled event, if canceled from Print::apply(). wxCommandEvent evt(m_event_finished_id); evt.SetString(error); evt.SetInt(m_print->canceled() ? -1 : (error.empty() ? 1 : 0)); wxQueueEvent(GUI::wxGetApp().mainframe->m_plater, evt.Clone()); } m_print->restart(); lck.unlock(); // Let the UI thread wake up if it is waiting for the background task to finish. m_condition.notify_one(); // Let the UI thread see the result. } m_state = STATE_EXITED; lck.unlock(); // End of the background processing thread. The UI thread should join m_thread now. } void BackgroundSlicingProcess::thread_proc_safe() { try { this->thread_proc(); } catch (...) { wxTheApp->OnUnhandledException(); } } void BackgroundSlicingProcess::join_background_thread() { std::unique_lock lck(m_mutex); if (m_state == STATE_INITIAL) { // Worker thread has not been started yet. assert(! m_thread.joinable()); } else { assert(m_state == STATE_IDLE); assert(m_thread.joinable()); // Notify the worker thread to exit. m_state = STATE_EXIT; lck.unlock(); m_condition.notify_one(); // Wait until the worker thread exits. m_thread.join(); } } bool BackgroundSlicingProcess::start() { if (m_print->empty()) // The print is empty (no object in Model, or all objects are out of the print bed). return false; std::unique_lock lck(m_mutex); if (m_state == STATE_INITIAL) { // The worker thread is not running yet. Start it. assert(! m_thread.joinable()); m_thread = std::thread([this]{this->thread_proc_safe();}); // Wait until the worker thread is ready to execute the background processing task. m_condition.wait(lck, [this](){ return m_state == STATE_IDLE; }); } assert(m_state == STATE_IDLE || this->running()); if (this->running()) // The background processing thread is already running. return false; if (! this->idle()) throw std::runtime_error("Cannot start a background task, the worker thread is not idle."); m_state = STATE_STARTED; m_print->set_cancel_callback([this](){ this->stop_internal(); }); lck.unlock(); m_condition.notify_one(); return true; } bool BackgroundSlicingProcess::stop() { // m_print->state_mutex() shall NOT be held. Unfortunately there is no interface to test for it. std::unique_lock lck(m_mutex); if (m_state == STATE_INITIAL) { // this->m_export_path.clear(); return false; } // assert(this->running()); if (m_state == STATE_STARTED || m_state == STATE_RUNNING) { m_print->cancel(); // Wait until the background processing stops by being canceled. m_condition.wait(lck, [this](){ return m_state == STATE_CANCELED; }); // In the "Canceled" state. Reset the state to "Idle". m_state = STATE_IDLE; m_print->set_cancel_callback([](){}); } else if (m_state == STATE_FINISHED || m_state == STATE_CANCELED) { // In the "Finished" or "Canceled" state. Reset the state to "Idle". m_state = STATE_IDLE; m_print->set_cancel_callback([](){}); } // this->m_export_path.clear(); return true; } bool BackgroundSlicingProcess::reset() { bool stopped = this->stop(); this->reset_export(); m_print->clear(); this->invalidate_all_steps(); return stopped; } // To be called by Print::apply() through the Print::m_cancel_callback to stop the background // processing before changing any data of running or finalized milestones. // This function shall not trigger any UI update through the wxWidgets event. void BackgroundSlicingProcess::stop_internal() { // m_print->state_mutex() shall be held. Unfortunately there is no interface to test for it. if (m_state == STATE_IDLE) // The worker thread is waiting on m_mutex/m_condition for wake up. The following lock of the mutex would block. return; std::unique_lock lck(m_mutex); assert(m_state == STATE_STARTED || m_state == STATE_RUNNING || m_state == STATE_FINISHED || m_state == STATE_CANCELED); if (m_state == STATE_STARTED || m_state == STATE_RUNNING) { // At this point of time the worker thread may be blocking on m_print->state_mutex(). // Set the print state to canceled before unlocking the state_mutex(), so when the worker thread wakes up, // it throws the CanceledException(). m_print->cancel_internal(); // Allow the worker thread to wake up if blocking on a milestone. m_print->state_mutex().unlock(); // Wait until the background processing stops by being canceled. m_condition.wait(lck, [this](){ return m_state == STATE_CANCELED; }); // Lock it back to be in a consistent state. m_print->state_mutex().lock(); } // In the "Canceled" state. Reset the state to "Idle". m_state = STATE_IDLE; m_print->set_cancel_callback([](){}); } bool BackgroundSlicingProcess::empty() const { assert(m_print != nullptr); return m_print->empty(); } std::string BackgroundSlicingProcess::validate() { assert(m_print != nullptr); return m_print->validate(); } // Apply config over the print. Returns false, if the new config values caused any of the already // processed steps to be invalidated, therefore the task will need to be restarted. Print::ApplyStatus BackgroundSlicingProcess::apply(const Model &model, const DynamicPrintConfig &config) { assert(m_print != nullptr); assert(config.opt_enum("printer_technology") == m_print->technology()); Print::ApplyStatus invalidated = m_print->apply(model, config); if ((invalidated & PrintBase::APPLY_STATUS_INVALIDATED) != 0 && m_print->technology() == ptFFF && m_gcode_preview_data != nullptr && ! this->m_fff_print->is_step_done(psGCodeExport)) { // Some FFF status was invalidated, and the G-code was not exported yet. // Let the G-code preview UI know that the final G-code preview is not valid. // In addition, this early memory deallocation reduces memory footprint. m_gcode_preview_data->reset(); } return invalidated; } void BackgroundSlicingProcess::set_task(const PrintBase::TaskParams ¶ms) { assert(m_print != nullptr); m_print->set_task(params); } // Set the output path of the G-code. void BackgroundSlicingProcess::schedule_export(const std::string &path) { assert(m_export_path.empty()); if (! m_export_path.empty()) return; // Guard against entering the export step before changing the export path. tbb::mutex::scoped_lock lock(m_print->state_mutex()); this->invalidate_step(bspsGCodeFinalize); m_export_path = path; } void BackgroundSlicingProcess::schedule_upload(Slic3r::PrintHostJob upload_job) { assert(m_export_path.empty()); if (! m_export_path.empty()) return; // Guard against entering the export step before changing the export path. tbb::mutex::scoped_lock lock(m_print->state_mutex()); this->invalidate_step(bspsGCodeFinalize); m_export_path.clear(); m_upload_job = std::move(upload_job); } void BackgroundSlicingProcess::reset_export() { assert(! this->running()); if (! this->running()) { m_export_path.clear(); // invalidate_step expects the mutex to be locked. tbb::mutex::scoped_lock lock(m_print->state_mutex()); this->invalidate_step(bspsGCodeFinalize); } } bool BackgroundSlicingProcess::set_step_started(BackgroundSlicingProcessStep step) { return m_step_state.set_started(step, m_print->state_mutex(), [this](){ this->throw_if_canceled(); }); } void BackgroundSlicingProcess::set_step_done(BackgroundSlicingProcessStep step) { m_step_state.set_done(step, m_print->state_mutex(), [this](){ this->throw_if_canceled(); }); } bool BackgroundSlicingProcess::is_step_done(BackgroundSlicingProcessStep step) const { return m_step_state.is_done(step, m_print->state_mutex()); } bool BackgroundSlicingProcess::invalidate_step(BackgroundSlicingProcessStep step) { bool invalidated = m_step_state.invalidate(step, [this](){ this->stop_internal(); }); return invalidated; } bool BackgroundSlicingProcess::invalidate_all_steps() { return m_step_state.invalidate_all([this](){ this->stop_internal(); }); } void BackgroundSlicingProcess::prepare_upload() { // A print host upload job has been scheduled, enqueue it to the printhost job queue // XXX: is fs::path::string() right? // Generate a unique temp path to which the gcode/zip file is copied/exported boost::filesystem::path source_path = boost::filesystem::temp_directory_path() / boost::filesystem::unique_path("." SLIC3R_APP_KEY ".upload.%%%%-%%%%-%%%%-%%%%"); if (m_print == m_fff_print) { m_print->set_status(95, _utf8(L("Running post-processing scripts"))); if (copy_file(m_temp_output_path, source_path.string()) != 0) { throw std::runtime_error(_utf8(L("Copying of the temporary G-code to the output G-code failed"))); } run_post_process_scripts(source_path.string(), m_fff_print->config()); m_upload_job.upload_data.upload_path = m_fff_print->print_statistics().finalize_output_path(m_upload_job.upload_data.upload_path.string()); } else { m_upload_job.upload_data.upload_path = m_sla_print->print_statistics().finalize_output_path(m_upload_job.upload_data.upload_path.string()); m_sla_print->export_raster(source_path.string(), m_upload_job.upload_data.upload_path.string()); } m_print->set_status(100, (boost::format(_utf8(L("Scheduling upload to `%1%`. See Window -> Print Host Upload Queue"))) % m_upload_job.printhost->get_host()).str()); m_upload_job.upload_data.source_path = std::move(source_path); GUI::wxGetApp().printhost_job_queue().enqueue(std::move(m_upload_job)); } }; // namespace Slic3r