600 lines
29 KiB
C++
600 lines
29 KiB
C++
#ifndef slic3r_PrintBase_hpp_
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#define slic3r_PrintBase_hpp_
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#include "libslic3r.h"
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#include <set>
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#include <vector>
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#include <string>
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#include <functional>
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// tbb/mutex.h includes Windows, which in turn defines min/max macros. Convince Windows.h to not define these min/max macros.
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#ifndef NOMINMAX
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#define NOMINMAX
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#endif
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#include "tbb/mutex.h"
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#include "ObjectID.hpp"
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#include "Model.hpp"
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#include "PlaceholderParser.hpp"
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#include "PrintConfig.hpp"
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namespace Slic3r {
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class CanceledException : public std::exception {
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public:
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const char* what() const throw() { return "Background processing has been canceled"; }
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};
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class PrintStateBase {
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public:
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enum State {
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INVALID,
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STARTED,
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DONE,
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};
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enum class WarningLevel {
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NON_CRITICAL,
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CRITICAL
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};
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typedef size_t TimeStamp;
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// A new unique timestamp is being assigned to the step every time the step changes its state.
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struct StateWithTimeStamp
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{
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StateWithTimeStamp() : state(INVALID), timestamp(0) {}
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State state;
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TimeStamp timestamp;
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};
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struct Warning
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{
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// Critical warnings will be displayed on G-code export in a modal dialog, so that the user cannot miss them.
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WarningLevel level;
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// If the warning is not current, then it is in an unknown state. It may or may not be valid.
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// A current warning will become non-current if its milestone gets invalidated.
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// A non-current warning will either become current or it will be removed at the end of a milestone.
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bool current;
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// Message to be shown to the user, UTF8, localized.
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std::string message;
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// If message_id == 0, then the message is expected to identify the warning uniquely.
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// Otherwise message_id identifies the message. For example, if the message contains a varying number, then
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// it cannot itself identify the message type.
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int message_id;
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};
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struct StateWithWarnings : public StateWithTimeStamp
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{
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void mark_warnings_non_current() { for (auto &w : warnings) w.current = false; }
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std::vector<Warning> warnings;
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};
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protected:
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//FIXME last timestamp is shared between Print & SLAPrint,
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// and if multiple Print or SLAPrint instances are executed in parallel, modification of g_last_timestamp
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// is not synchronized!
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static size_t g_last_timestamp;
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};
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// To be instantiated over PrintStep or PrintObjectStep enums.
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template <class StepType, size_t COUNT>
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class PrintState : public PrintStateBase
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{
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public:
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PrintState() {}
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StateWithTimeStamp state_with_timestamp(StepType step, tbb::mutex &mtx) const {
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tbb::mutex::scoped_lock lock(mtx);
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StateWithTimeStamp state = m_state[step];
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return state;
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}
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StateWithWarnings state_with_warnings(StepType step, tbb::mutex &mtx) const {
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tbb::mutex::scoped_lock lock(mtx);
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StateWithWarnings state = m_state[step];
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return state;
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}
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bool is_started(StepType step, tbb::mutex &mtx) const {
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return this->state_with_timestamp(step, mtx).state == STARTED;
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}
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bool is_done(StepType step, tbb::mutex &mtx) const {
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return this->state_with_timestamp(step, mtx).state == DONE;
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}
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StateWithTimeStamp state_with_timestamp_unguarded(StepType step) const {
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return m_state[step];
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}
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bool is_started_unguarded(StepType step) const {
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return this->state_with_timestamp_unguarded(step).state == STARTED;
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}
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bool is_done_unguarded(StepType step) const {
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return this->state_with_timestamp_unguarded(step).state == DONE;
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}
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// Set the step as started. Block on mutex while the Print / PrintObject / PrintRegion objects are being
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// modified by the UI thread.
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// This is necessary to block until the Print::apply() updates its state, which may
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// influence the processing step being entered.
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template<typename ThrowIfCanceled>
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bool set_started(StepType step, tbb::mutex &mtx, ThrowIfCanceled throw_if_canceled) {
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tbb::mutex::scoped_lock lock(mtx);
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// If canceled, throw before changing the step state.
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throw_if_canceled();
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#ifndef NDEBUG
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// The following test is not necessarily valid after the background processing thread
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// is stopped with throw_if_canceled(), as the CanceledException is not being catched
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// by the Print or PrintObject to update m_step_active or m_state[...].state.
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// This should not be a problem as long as the caller calls set_started() / set_done() /
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// active_step_add_warning() consistently. From the robustness point of view it would be
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// be better to catch CanceledException and do the updates. From the performance point of view,
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// the current implementation is optimal.
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//
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// assert(m_step_active == -1);
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// for (int i = 0; i < int(COUNT); ++ i)
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// assert(m_state[i].state != STARTED);
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#endif // NDEBUG
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if (m_state[step].state == DONE)
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return false;
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PrintStateBase::StateWithWarnings &state = m_state[step];
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state.state = STARTED;
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state.timestamp = ++ g_last_timestamp;
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state.mark_warnings_non_current();
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m_step_active = static_cast<int>(step);
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return true;
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}
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// Set the step as done. Block on mutex while the Print / PrintObject / PrintRegion objects are being
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// modified by the UI thread.
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// Return value:
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// Timestamp when this stepentered the DONE state.
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// bool indicates whether the UI has to update the slicing warnings of this step or not.
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template<typename ThrowIfCanceled>
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std::pair<TimeStamp, bool> set_done(StepType step, tbb::mutex &mtx, ThrowIfCanceled throw_if_canceled) {
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tbb::mutex::scoped_lock lock(mtx);
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// If canceled, throw before changing the step state.
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throw_if_canceled();
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assert(m_state[step].state == STARTED);
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assert(m_step_active == static_cast<int>(step));
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PrintStateBase::StateWithWarnings &state = m_state[step];
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state.state = DONE;
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state.timestamp = ++ g_last_timestamp;
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m_step_active = -1;
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// Remove all non-current warnings.
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auto it = std::remove_if(state.warnings.begin(), state.warnings.end(), [](const auto &w) { return ! w.current; });
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bool update_warning_ui = false;
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if (it != state.warnings.end()) {
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state.warnings.erase(it, state.warnings.end());
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update_warning_ui = true;
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}
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return std::make_pair(state.timestamp, update_warning_ui);
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}
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// Make the step invalid.
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// PrintBase::m_state_mutex should be locked at this point, guarding access to m_state.
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// In case the step has already been entered or finished, cancel the background
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// processing by calling the cancel callback.
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template<typename CancelationCallback>
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bool invalidate(StepType step, CancelationCallback cancel) {
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bool invalidated = m_state[step].state != INVALID;
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if (invalidated) {
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#if 0
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if (mtx.state != mtx.HELD) {
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printf("Not held!\n");
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}
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#endif
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PrintStateBase::StateWithWarnings &state = m_state[step];
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state.state = INVALID;
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state.timestamp = ++ g_last_timestamp;
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// Raise the mutex, so that the following cancel() callback could cancel
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// the background processing.
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// Internally the cancel() callback shall unlock the PrintBase::m_status_mutex to let
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// the working thread proceed.
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cancel();
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// Now the worker thread should be stopped, therefore it cannot write into the warnings field.
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// It is safe to modify it.
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state.mark_warnings_non_current();
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m_step_active = -1;
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}
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return invalidated;
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}
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template<typename CancelationCallback, typename StepTypeIterator>
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bool invalidate_multiple(StepTypeIterator step_begin, StepTypeIterator step_end, CancelationCallback cancel) {
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bool invalidated = false;
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for (StepTypeIterator it = step_begin; it != step_end; ++ it) {
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StateWithTimeStamp &state = m_state[*it];
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if (state.state != INVALID) {
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invalidated = true;
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state.state = INVALID;
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state.timestamp = ++ g_last_timestamp;
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}
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}
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if (invalidated) {
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#if 0
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if (mtx.state != mtx.HELD) {
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printf("Not held!\n");
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}
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#endif
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// Raise the mutex, so that the following cancel() callback could cancel
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// the background processing.
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// Internally the cancel() callback shall unlock the PrintBase::m_status_mutex to let
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// the working thread to proceed.
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cancel();
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// Now the worker thread should be stopped, therefore it cannot write into the warnings field.
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// It is safe to modify the warnings.
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for (StepTypeIterator it = step_begin; it != step_end; ++ it)
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m_state[*it].mark_warnings_non_current();
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m_step_active = -1;
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}
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return invalidated;
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}
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// Make all steps invalid.
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// PrintBase::m_state_mutex should be locked at this point, guarding access to m_state.
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// In case any step has already been entered or finished, cancel the background
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// processing by calling the cancel callback.
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template<typename CancelationCallback>
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bool invalidate_all(CancelationCallback cancel) {
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bool invalidated = false;
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for (size_t i = 0; i < COUNT; ++ i) {
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StateWithTimeStamp &state = m_state[i];
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if (state.state != INVALID) {
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invalidated = true;
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state.state = INVALID;
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state.timestamp = ++ g_last_timestamp;
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}
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}
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if (invalidated) {
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cancel();
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// Now the worker thread should be stopped, therefore it cannot write into the warnings field.
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// It is safe to modify the warnings.
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for (size_t i = 0; i < COUNT; ++ i)
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m_state[i].mark_warnings_non_current();
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m_step_active = -1;
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}
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return invalidated;
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}
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// Update list of warnings of the current milestone with a new warning.
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// The warning may already exist in the list, marked as current or not current.
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// If it already exists, mark it as current.
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// Return value:
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// Current milestone (StepType).
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// bool indicates whether the UI has to be updated or not.
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std::pair<StepType, bool> active_step_add_warning(PrintStateBase::WarningLevel warning_level, const std::string &message, int message_id, tbb::mutex &mtx)
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{
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tbb::mutex::scoped_lock lock(mtx);
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assert(m_step_active != -1);
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StateWithWarnings &state = m_state[m_step_active];
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assert(state.state == STARTED);
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std::pair<StepType, bool> retval(static_cast<StepType>(m_step_active), true);
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// Does a warning of the same level and message or message_id exist already?
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auto it = (message_id == 0) ?
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std::find_if(state.warnings.begin(), state.warnings.end(), [&message](const auto &w) { return w.message_id == 0 && w.message == message; }) :
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std::find_if(state.warnings.begin(), state.warnings.end(), [message_id](const auto& w) { return w.message_id == message_id; });
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if (it == state.warnings.end())
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// No, create a new warning and update UI.
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state.warnings.emplace_back(PrintStateBase::Warning{ warning_level, true, message, message_id });
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else if (it->message != message || it->level != warning_level) {
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// Yes, however it needs an update.
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it->message = message;
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it->level = warning_level;
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it->current = true;
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} else if (it->current)
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// Yes, and it is current. Don't update UI.
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retval.second = false;
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else
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// Yes, but it is not current. Mark it as current.
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it->current = true;
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return retval;
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}
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private:
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StateWithWarnings m_state[COUNT];
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// Active class StepType or -1 if none is active.
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// If the background processing is canceled, m_step_active may not be resetted
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// to -1, see the comment in this->set_started().
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int m_step_active = -1;
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};
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class PrintBase;
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class PrintObjectBase : public ObjectBase
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{
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public:
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const ModelObject* model_object() const { return m_model_object; }
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ModelObject* model_object() { return m_model_object; }
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protected:
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PrintObjectBase(ModelObject *model_object) : m_model_object(model_object) {}
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virtual ~PrintObjectBase() {}
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// Declared here to allow access from PrintBase through friendship.
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static tbb::mutex& state_mutex(PrintBase *print);
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static std::function<void()> cancel_callback(PrintBase *print);
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// Notify UI about a new warning of a milestone "step" on this PrintObjectBase.
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// The UI will be notified by calling a status callback registered on print.
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// If no status callback is registered, the message is printed to console.
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void status_update_warnings(PrintBase *print, int step, PrintStateBase::WarningLevel warning_level, const std::string &message);
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ModelObject *m_model_object;
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};
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/**
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* @brief Printing involves slicing and export of device dependent instructions.
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*
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* Every technology has a potentially different set of requirements for
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* slicing, support structures and output print instructions. The pipeline
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* however remains roughly the same:
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* slice -> convert to instructions -> send to printer
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*
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* The PrintBase class will abstract this flow for different technologies.
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*
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*/
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class PrintBase : public ObjectBase
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{
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public:
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PrintBase() : m_placeholder_parser(&m_full_print_config) { this->restart(); }
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inline virtual ~PrintBase() {}
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virtual PrinterTechnology technology() const noexcept = 0;
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// Reset the print status including the copy of the Model / ModelObject hierarchy.
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virtual void clear() = 0;
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// The Print is empty either after clear() or after apply() over an empty model,
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// or after apply() over a model, where no object is printable (all outside the print volume).
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virtual bool empty() const = 0;
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// Validate the print, return empty string if valid, return error if process() cannot (or should not) be started.
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virtual std::string validate() const { return std::string(); }
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enum ApplyStatus {
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// No change after the Print::apply() call.
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APPLY_STATUS_UNCHANGED,
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// Some of the Print / PrintObject / PrintObjectInstance data was changed,
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// but no result was invalidated (only data influencing not yet calculated results were changed).
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APPLY_STATUS_CHANGED,
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// Some data was changed, which in turn invalidated already calculated steps.
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APPLY_STATUS_INVALIDATED,
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};
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virtual ApplyStatus apply(const Model &model, DynamicPrintConfig config) = 0;
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const Model& model() const { return m_model; }
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struct TaskParams {
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TaskParams() : single_model_object(0), single_model_instance_only(false), to_object_step(-1), to_print_step(-1) {}
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// If non-empty, limit the processing to this ModelObject.
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ObjectID single_model_object;
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// If set, only process single_model_object. Otherwise process everything, but single_model_object first.
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bool single_model_instance_only;
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// If non-negative, stop processing at the successive object step.
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int to_object_step;
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// If non-negative, stop processing at the successive print step.
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int to_print_step;
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};
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// After calling the apply() function, call set_task() to limit the task to be processed by process().
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virtual void set_task(const TaskParams ¶ms) {}
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// Perform the calculation. This is the only method that is to be called at a worker thread.
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virtual void process() = 0;
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// Clean up after process() finished, either with success, error or if canceled.
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// The adjustments on the Print / PrintObject data due to set_task() are to be reverted here.
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virtual void finalize() {}
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struct SlicingStatus {
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SlicingStatus(int percent, const std::string &text, unsigned int flags = 0) : percent(percent), text(text), flags(flags) {}
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SlicingStatus(const PrintBase &print, int warning_step) :
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flags(UPDATE_PRINT_STEP_WARNINGS), warning_object_id(print.id()), warning_step(warning_step) {}
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SlicingStatus(const PrintObjectBase &print_object, int warning_step) :
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flags(UPDATE_PRINT_OBJECT_STEP_WARNINGS), warning_object_id(print_object.id()), warning_step(warning_step) {}
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int percent { -1 };
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std::string text;
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// Bitmap of flags.
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enum FlagBits {
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DEFAULT = 0,
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RELOAD_SCENE = 1 << 1,
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RELOAD_SLA_SUPPORT_POINTS = 1 << 2,
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RELOAD_SLA_PREVIEW = 1 << 3,
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// UPDATE_PRINT_STEP_WARNINGS is mutually exclusive with UPDATE_PRINT_OBJECT_STEP_WARNINGS.
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UPDATE_PRINT_STEP_WARNINGS = 1 << 4,
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UPDATE_PRINT_OBJECT_STEP_WARNINGS = 1 << 5
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};
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// Bitmap of FlagBits
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unsigned int flags;
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// set to an ObjectID of a Print or a PrintObject based on flags
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// (whether UPDATE_PRINT_STEP_WARNINGS or UPDATE_PRINT_OBJECT_STEP_WARNINGS is set).
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ObjectID warning_object_id;
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// For which Print or PrintObject step a new warning is beeing issued?
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int warning_step { -1 };
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};
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typedef std::function<void(const SlicingStatus&)> status_callback_type;
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// Default status console print out in the form of percent => message.
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void set_status_default() { m_status_callback = nullptr; }
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// No status output or callback whatsoever, useful mostly for automatic tests.
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void set_status_silent() { m_status_callback = [](const SlicingStatus&){}; }
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// Register a custom status callback.
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void set_status_callback(status_callback_type cb) { m_status_callback = cb; }
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// Calls a registered callback to update the status, or print out the default message.
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void set_status(int percent, const std::string &message, unsigned int flags = SlicingStatus::DEFAULT) {
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if (m_status_callback) m_status_callback(SlicingStatus(percent, message, flags));
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else printf("%d => %s\n", percent, message.c_str());
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}
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typedef std::function<void()> cancel_callback_type;
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// Various methods will call this callback to stop the background processing (the Print::process() call)
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// in case a successive change of the Print / PrintObject / PrintRegion instances changed
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// the state of the finished or running calculations.
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void set_cancel_callback(cancel_callback_type cancel_callback) { m_cancel_callback = cancel_callback; }
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// Has the calculation been canceled?
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enum CancelStatus {
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// No cancelation, background processing should run.
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NOT_CANCELED = 0,
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// Canceled by user from the user interface (user pressed the "Cancel" button or user closed the application).
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CANCELED_BY_USER = 1,
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// Canceled internally from Print::apply() through the Print/PrintObject::invalidate_step() or ::invalidate_all_steps().
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CANCELED_INTERNAL = 2
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};
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CancelStatus cancel_status() const { return m_cancel_status; }
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// Has the calculation been canceled?
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bool canceled() const { return m_cancel_status != NOT_CANCELED; }
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// Cancel the running computation. Stop execution of all the background threads.
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void cancel() { m_cancel_status = CANCELED_BY_USER; }
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void cancel_internal() { m_cancel_status = CANCELED_INTERNAL; }
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// Cancel the running computation. Stop execution of all the background threads.
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void restart() { m_cancel_status = NOT_CANCELED; }
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// Returns true if the last step was finished with success.
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virtual bool finished() const = 0;
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const PlaceholderParser& placeholder_parser() const { return m_placeholder_parser; }
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const DynamicPrintConfig& full_print_config() const { return m_full_print_config; }
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virtual std::string output_filename(const std::string &filename_base = std::string()) const = 0;
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// If the filename_base is set, it is used as the input for the template processing. In that case the path is expected to be the directory (may be empty).
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// If filename_set is empty, than the path may be a file or directory. If it is a file, then the macro will not be processed.
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std::string output_filepath(const std::string &path, const std::string &filename_base = std::string()) const;
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protected:
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friend class PrintObjectBase;
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friend class BackgroundSlicingProcess;
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tbb::mutex& state_mutex() const { return m_state_mutex; }
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std::function<void()> cancel_callback() { return m_cancel_callback; }
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void call_cancel_callback() { m_cancel_callback(); }
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// Notify UI about a new warning of a milestone "step" on this PrintBase.
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// The UI will be notified by calling a status callback.
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// If no status callback is registered, the message is printed to console.
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void status_update_warnings(ObjectID object_id, int step, PrintStateBase::WarningLevel warning_level, const std::string &message);
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// If the background processing stop was requested, throw CanceledException.
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// To be called by the worker thread and its sub-threads (mostly launched on the TBB thread pool) regularly.
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void throw_if_canceled() const { if (m_cancel_status) throw CanceledException(); }
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// To be called by this->output_filename() with the format string pulled from the configuration layer.
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std::string output_filename(const std::string &format, const std::string &default_ext, const std::string &filename_base, const DynamicConfig *config_override = nullptr) const;
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// Update "scale", "input_filename", "input_filename_base" placeholders from the current printable ModelObjects.
|
|
void update_object_placeholders(DynamicConfig &config, const std::string &default_ext) const;
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|
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Model m_model;
|
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DynamicPrintConfig m_full_print_config;
|
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PlaceholderParser m_placeholder_parser;
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|
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// Callback to be evoked regularly to update state of the UI thread.
|
|
status_callback_type m_status_callback;
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private:
|
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tbb::atomic<CancelStatus> m_cancel_status;
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|
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// Callback to be evoked to stop the background processing before a state is updated.
|
|
cancel_callback_type m_cancel_callback = [](){};
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|
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// Mutex used for synchronization of the worker thread with the UI thread:
|
|
// The mutex will be used to guard the worker thread against entering a stage
|
|
// while the data influencing the stage is modified.
|
|
mutable tbb::mutex m_state_mutex;
|
|
};
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template<typename PrintStepEnum, const size_t COUNT>
|
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class PrintBaseWithState : public PrintBase
|
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{
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public:
|
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bool is_step_done(PrintStepEnum step) const { return m_state.is_done(step, this->state_mutex()); }
|
|
PrintStateBase::StateWithTimeStamp step_state_with_timestamp(PrintStepEnum step) const { return m_state.state_with_timestamp(step, this->state_mutex()); }
|
|
PrintStateBase::StateWithWarnings step_state_with_warnings(PrintStepEnum step) const { return m_state.state_with_warnings(step, this->state_mutex()); }
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|
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protected:
|
|
bool set_started(PrintStepEnum step) { return m_state.set_started(step, this->state_mutex(), [this](){ this->throw_if_canceled(); }); }
|
|
PrintStateBase::TimeStamp set_done(PrintStepEnum step) {
|
|
std::pair<PrintStateBase::TimeStamp, bool> status = m_state.set_done(step, this->state_mutex(), [this](){ this->throw_if_canceled(); });
|
|
if (status.second)
|
|
this->status_update_warnings(this->id(), static_cast<int>(step), PrintStateBase::WarningLevel::NON_CRITICAL, std::string());
|
|
return status.first;
|
|
}
|
|
bool invalidate_step(PrintStepEnum step)
|
|
{ return m_state.invalidate(step, this->cancel_callback()); }
|
|
template<typename StepTypeIterator>
|
|
bool invalidate_steps(StepTypeIterator step_begin, StepTypeIterator step_end)
|
|
{ return m_state.invalidate_multiple(step_begin, step_end, this->cancel_callback()); }
|
|
bool invalidate_steps(std::initializer_list<PrintStepEnum> il)
|
|
{ return m_state.invalidate_multiple(il.begin(), il.end(), this->cancel_callback()); }
|
|
bool invalidate_all_steps()
|
|
{ return m_state.invalidate_all(this->cancel_callback()); }
|
|
|
|
bool is_step_started_unguarded(PrintStepEnum step) const { return m_state.is_started_unguarded(step); }
|
|
bool is_step_done_unguarded(PrintStepEnum step) const { return m_state.is_done_unguarded(step); }
|
|
|
|
// Add a slicing warning to the active Print step and send a status notification.
|
|
// This method could be called multiple times between this->set_started() and this->set_done().
|
|
void active_step_add_warning(PrintStateBase::WarningLevel warning_level, const std::string &message, int message_id = 0) {
|
|
std::pair<PrintStepEnum, bool> active_step = m_state.active_step_add_warning(warning_level, message, message_id, this->state_mutex());
|
|
if (active_step.second)
|
|
// Update UI.
|
|
this->status_update_warnings(this->id(), static_cast<int>(active_step.first), warning_level, message);
|
|
}
|
|
|
|
private:
|
|
PrintState<PrintStepEnum, COUNT> m_state;
|
|
};
|
|
|
|
template<typename PrintType, typename PrintObjectStepEnum, const size_t COUNT>
|
|
class PrintObjectBaseWithState : public PrintObjectBase
|
|
{
|
|
public:
|
|
PrintType* print() { return m_print; }
|
|
const PrintType* print() const { return m_print; }
|
|
|
|
typedef PrintState<PrintObjectStepEnum, COUNT> PrintObjectState;
|
|
bool is_step_done(PrintObjectStepEnum step) const { return m_state.is_done(step, PrintObjectBase::state_mutex(m_print)); }
|
|
PrintStateBase::StateWithTimeStamp step_state_with_timestamp(PrintObjectStepEnum step) const { return m_state.state_with_timestamp(step, PrintObjectBase::state_mutex(m_print)); }
|
|
PrintStateBase::StateWithWarnings step_state_with_warnings(PrintObjectStepEnum step) const { return m_state.state_with_warnings(step, PrintObjectBase::state_mutex(m_print)); }
|
|
|
|
protected:
|
|
PrintObjectBaseWithState(PrintType *print, ModelObject *model_object) : PrintObjectBase(model_object), m_print(print) {}
|
|
|
|
bool set_started(PrintObjectStepEnum step)
|
|
{ return m_state.set_started(step, PrintObjectBase::state_mutex(m_print), [this](){ this->throw_if_canceled(); }); }
|
|
PrintStateBase::TimeStamp set_done(PrintObjectStepEnum step) {
|
|
std::pair<PrintStateBase::TimeStamp, bool> status = m_state.set_done(step, PrintObjectBase::state_mutex(m_print), [this](){ this->throw_if_canceled(); });
|
|
if (status.second)
|
|
this->status_update_warnings(m_print, static_cast<int>(step), PrintStateBase::WarningLevel::NON_CRITICAL, std::string());
|
|
return status.first;
|
|
}
|
|
|
|
bool invalidate_step(PrintObjectStepEnum step)
|
|
{ return m_state.invalidate(step, PrintObjectBase::cancel_callback(m_print)); }
|
|
template<typename StepTypeIterator>
|
|
bool invalidate_steps(StepTypeIterator step_begin, StepTypeIterator step_end)
|
|
{ return m_state.invalidate_multiple(step_begin, step_end, PrintObjectBase::cancel_callback(m_print)); }
|
|
bool invalidate_steps(std::initializer_list<PrintObjectStepEnum> il)
|
|
{ return m_state.invalidate_multiple(il.begin(), il.end(), PrintObjectBase::cancel_callback(m_print)); }
|
|
bool invalidate_all_steps()
|
|
{ return m_state.invalidate_all(PrintObjectBase::cancel_callback(m_print)); }
|
|
|
|
bool is_step_started_unguarded(PrintObjectStepEnum step) const { return m_state.is_started_unguarded(step); }
|
|
bool is_step_done_unguarded(PrintObjectStepEnum step) const { return m_state.is_done_unguarded(step); }
|
|
|
|
// Add a slicing warning to the active PrintObject step and send a status notification.
|
|
// This method could be called multiple times between this->set_started() and this->set_done().
|
|
void active_step_add_warning(PrintStateBase::WarningLevel warning_level, const std::string &message, int message_id = 0) {
|
|
std::pair<PrintObjectStepEnum, bool> active_step = m_state.active_step_add_warning(warning_level, message, message_id, PrintObjectBase::state_mutex(m_print));
|
|
if (active_step.second)
|
|
this->status_update_warnings(m_print, static_cast<int>(active_step.first), warning_level, message);
|
|
}
|
|
|
|
protected:
|
|
// If the background processing stop was requested, throw CanceledException.
|
|
// To be called by the worker thread and its sub-threads (mostly launched on the TBB thread pool) regularly.
|
|
void throw_if_canceled() { if (m_print->canceled()) throw CanceledException(); }
|
|
|
|
friend PrintType;
|
|
PrintType *m_print;
|
|
|
|
private:
|
|
PrintState<PrintObjectStepEnum, COUNT> m_state;
|
|
};
|
|
|
|
} // namespace Slic3r
|
|
|
|
#endif /* slic3r_PrintBase_hpp_ */
|