538 lines
24 KiB
C++
538 lines
24 KiB
C++
#ifndef slic3r_Print_hpp_
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#define slic3r_Print_hpp_
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#include "libslic3r.h"
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#include <atomic>
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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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#include "BoundingBox.hpp"
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#include "Flow.hpp"
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#include "PrintConfig.hpp"
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#include "Point.hpp"
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#include "Layer.hpp"
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#include "Model.hpp"
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#include "PlaceholderParser.hpp"
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#include "Slicing.hpp"
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#include "GCode/ToolOrdering.hpp"
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#include "GCode/WipeTower.hpp"
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#include "tbb/atomic.h"
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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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namespace Slic3r {
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class Print;
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class PrintObject;
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class ModelObject;
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class GCode;
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class GCodePreviewData;
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// Print step IDs for keeping track of the print state.
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enum PrintStep {
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psSkirt, psBrim, psWipeTower, psGCodeExport, psCount,
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};
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enum PrintObjectStep {
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posSlice, posPerimeters, posPrepareInfill,
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posInfill, posSupportMaterial, posCount,
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};
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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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// To be instantiated over PrintStep or PrintObjectStep enums.
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template <class StepType, size_t COUNT>
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class PrintState
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{
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public:
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PrintState() { for (size_t i = 0; i < COUNT; ++ i) m_state[i].store(INVALID, std::memory_order_relaxed); }
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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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// With full memory barrier.
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bool is_done(StepType step) const { return m_state[step] == DONE; }
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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_config() updates its state, which may
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// influence the processing step being entered.
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void set_started(StepType step, tbb::mutex &mtx) {
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mtx.lock();
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m_state[step].store(STARTED, std::memory_order_relaxed);
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mtx.unlock();
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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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void set_done(StepType step, tbb::mutex &mtx) {
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mtx.lock();
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m_state[step].store(DONE, std::memory_order_relaxed);
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mtx.unlock();
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}
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// Make the step invalid.
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// The provided 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, tbb::mutex &mtx, CancelationCallback &cancel) {
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bool invalidated = m_state[step].load(std::memory_order_relaxed) != 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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mtx.unlock();
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cancel();
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mtx.lock();
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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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// The provided 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(tbb::mutex &mtx, 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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if (m_state[i].load(std::memory_order_relaxed) != INVALID) {
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if (! invalidated) {
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mtx.unlock();
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cancel();
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mtx.lock();
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invalidated = true;
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}
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m_state[i].store(INVALID, std::memory_order_relaxed);
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}
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return invalidated;
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}
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private:
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std::atomic<State> m_state[COUNT];
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};
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// A PrintRegion object represents a group of volumes to print
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// sharing the same config (including the same assigned extruder(s))
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class PrintRegion
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{
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friend class Print;
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// Methods NOT modifying the PrintRegion's state:
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public:
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const Print* print() const { return m_print; }
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const PrintRegionConfig& config() const { return m_config; }
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Flow flow(FlowRole role, double layer_height, bool bridge, bool first_layer, double width, const PrintObject &object) const;
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// Average diameter of nozzles participating on extruding this region.
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coordf_t nozzle_dmr_avg(const PrintConfig &print_config) const;
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// Average diameter of nozzles participating on extruding this region.
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coordf_t bridging_height_avg(const PrintConfig &print_config) const;
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// Methods modifying the PrintRegion's state:
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public:
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Print* print() { return m_print; }
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void config_apply_only(const ConfigBase &other, const t_config_option_keys &keys, bool ignore_nonexistent = false) { this->m_config.apply_only(other, keys, ignore_nonexistent); }
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private:
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Print *m_print;
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PrintRegionConfig m_config;
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PrintRegion(Print* print) : m_print(print) {}
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PrintRegion(Print* print, const PrintRegionConfig &config) : m_print(print), m_config(config) {}
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~PrintRegion() {}
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};
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typedef std::vector<Layer*> LayerPtrs;
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typedef std::vector<SupportLayer*> SupportLayerPtrs;
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class BoundingBoxf3; // TODO: for temporary constructor parameter
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class PrintObject
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{
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friend class Print;
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public:
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// vector of (vectors of volume ids), indexed by region_id
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std::vector<std::vector<int>> region_volumes;
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t_layer_height_ranges layer_height_ranges;
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// Profile of increasing z to a layer height, to be linearly interpolated when calculating the layers.
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// The pairs of <z, layer_height> are packed into a 1D array to simplify handling by the Perl XS.
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// layer_height_profile must not be set by the background thread.
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std::vector<coordf_t> layer_height_profile;
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// There is a layer_height_profile at both PrintObject and ModelObject. The layer_height_profile at the ModelObject
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// is used for interactive editing and for loading / storing into a project file (AMF file as of today).
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// This flag indicates that the layer_height_profile at the UI has been updated, therefore the backend needs to get it.
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// This flag is necessary as we cannot safely clear the layer_height_profile if the background calculation is running.
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bool layer_height_profile_valid;
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// this is set to true when LayerRegion->slices is split in top/internal/bottom
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// so that next call to make_perimeters() performs a union() before computing loops
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bool typed_slices;
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Vec3crd size; // XYZ in scaled coordinates
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Print* print() { return m_print; }
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const Print* print() const { return m_print; }
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ModelObject* model_object() { return m_model_object; }
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const ModelObject* model_object() const { return m_model_object; }
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const PrintObjectConfig& config() const { return m_config; }
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void config_apply(const ConfigBase &other, bool ignore_nonexistent = false) { this->m_config.apply(other, ignore_nonexistent); }
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void config_apply_only(const ConfigBase &other, const t_config_option_keys &keys, bool ignore_nonexistent = false) { this->m_config.apply_only(other, keys, ignore_nonexistent); }
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const LayerPtrs& layers() const { return m_layers; }
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const SupportLayerPtrs& support_layers() const { return m_support_layers; }
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const Points& copies() const { return m_copies; }
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bool add_copy(const Vec2d &point);
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bool delete_last_copy();
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bool delete_all_copies() { return this->set_copies(Points()); }
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bool set_copies(const Points &points);
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bool reload_model_instances();
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// since the object is aligned to origin, bounding box coincides with size
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BoundingBox bounding_box() const { return BoundingBox(Point(0,0), to_2d(this->size)); }
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// adds region_id, too, if necessary
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void add_region_volume(unsigned int region_id, int volume_id) {
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if (region_id >= region_volumes.size())
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region_volumes.resize(region_id + 1);
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region_volumes[region_id].push_back(volume_id);
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}
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// This is the *total* layer count (including support layers)
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// this value is not supposed to be compared with Layer::id
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// since they have different semantics.
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size_t total_layer_count() const { return this->layer_count() + this->support_layer_count(); }
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size_t layer_count() const { return m_layers.size(); }
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void clear_layers();
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Layer* get_layer(int idx) { return m_layers[idx]; }
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const Layer* get_layer(int idx) const { return m_layers[idx]; }
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// print_z: top of the layer; slice_z: center of the layer.
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Layer* add_layer(int id, coordf_t height, coordf_t print_z, coordf_t slice_z);
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size_t support_layer_count() const { return m_support_layers.size(); }
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void clear_support_layers();
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SupportLayer* get_support_layer(int idx) { return m_support_layers[idx]; }
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SupportLayer* add_support_layer(int id, coordf_t height, coordf_t print_z);
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SupportLayerPtrs::const_iterator insert_support_layer(SupportLayerPtrs::const_iterator pos, int id, coordf_t height, coordf_t print_z, coordf_t slice_z);
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void delete_support_layer(int idx);
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// methods for handling state
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bool invalidate_state_by_config_options(const std::vector<t_config_option_key> &opt_keys);
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bool invalidate_step(PrintObjectStep step);
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bool invalidate_all_steps();
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bool is_step_done(PrintObjectStep step) const { return m_state.is_done(step); }
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// To be used over the layer_height_profile of both the PrintObject and ModelObject
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// to initialize the height profile with the height ranges.
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bool update_layer_height_profile(std::vector<coordf_t> &layer_height_profile) const;
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// Process layer_height_ranges, the raft layers and first layer thickness into layer_height_profile.
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// The layer_height_profile may be later modified interactively by the user to refine layers at sloping surfaces.
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bool update_layer_height_profile();
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void reset_layer_height_profile();
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void adjust_layer_height_profile(coordf_t z, coordf_t layer_thickness_delta, coordf_t band_width, int action);
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// Collect the slicing parameters, to be used by variable layer thickness algorithm,
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// by the interactive layer height editor and by the printing process itself.
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// The slicing parameters are dependent on various configuration values
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// (layer height, first layer height, raft settings, print nozzle diameter etc).
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SlicingParameters slicing_parameters() const;
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// Called when slicing to SVG (see Print.pm sub export_svg), and used by perimeters.t
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void slice();
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// Helpers to slice support enforcer / blocker meshes by the support generator.
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std::vector<ExPolygons> slice_support_enforcers() const;
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std::vector<ExPolygons> slice_support_blockers() const;
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private:
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void make_perimeters();
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void prepare_infill();
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void infill();
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void generate_support_material();
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void _slice();
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std::string _fix_slicing_errors();
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void _simplify_slices(double distance);
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void _make_perimeters();
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bool has_support_material() const;
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void detect_surfaces_type();
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void process_external_surfaces();
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void discover_vertical_shells();
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void bridge_over_infill();
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void clip_fill_surfaces();
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void discover_horizontal_shells();
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void combine_infill();
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void _generate_support_material();
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bool is_printable() const { return ! m_copies.empty(); }
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Print *m_print;
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ModelObject *m_model_object;
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PrintObjectConfig m_config;
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// Slic3r::Point objects in scaled G-code coordinates
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Points m_copies;
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// scaled coordinates to add to copies (to compensate for the alignment
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// operated when creating the object but still preserving a coherent API
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// for external callers)
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Point m_copies_shift;
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LayerPtrs m_layers;
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SupportLayerPtrs m_support_layers;
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PrintState<PrintObjectStep, posCount> m_state;
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// TODO: call model_object->get_bounding_box() instead of accepting
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// parameter
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PrintObject(Print* print, ModelObject* model_object, const BoundingBoxf3 &modobj_bbox);
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~PrintObject() {}
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void set_started(PrintObjectStep step);
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void set_done(PrintObjectStep step);
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std::vector<ExPolygons> _slice_region(size_t region_id, const std::vector<float> &z, bool modifier);
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std::vector<ExPolygons> _slice_volumes(const std::vector<float> &z, const std::vector<const ModelVolume*> &volumes) const;
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};
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struct WipeTowerData
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{
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// Following section will be consumed by the GCodeGenerator.
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// Tool ordering of a non-sequential print has to be known to calculate the wipe tower.
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// Cache it here, so it does not need to be recalculated during the G-code generation.
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ToolOrdering tool_ordering;
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// Cache of tool changes per print layer.
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std::unique_ptr<WipeTower::ToolChangeResult> priming;
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std::vector<std::vector<WipeTower::ToolChangeResult>> tool_changes;
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std::unique_ptr<WipeTower::ToolChangeResult> final_purge;
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std::vector<float> used_filament;
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int number_of_toolchanges;
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// Depth of the wipe tower to pass to GLCanvas3D for exact bounding box:
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float depth;
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void clear() {
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tool_ordering.clear();
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priming.reset(nullptr);
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tool_changes.clear();
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final_purge.reset(nullptr);
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used_filament.clear();
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number_of_toolchanges = -1;
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depth = 0.f;
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}
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};
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struct PrintStatistics
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{
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PrintStatistics() { clear(); }
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std::string estimated_normal_print_time;
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std::string estimated_silent_print_time;
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double total_used_filament;
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double total_extruded_volume;
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double total_cost;
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double total_weight;
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double total_wipe_tower_cost;
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double total_wipe_tower_filament;
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std::map<size_t, float> filament_stats;
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void clear() {
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estimated_normal_print_time.clear();
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estimated_silent_print_time.clear();
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total_used_filament = 0.;
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total_extruded_volume = 0.;
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total_cost = 0.;
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total_weight = 0.;
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total_wipe_tower_cost = 0.;
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total_wipe_tower_filament = 0.;
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filament_stats.clear();
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}
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};
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typedef std::vector<PrintObject*> PrintObjectPtrs;
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typedef std::vector<PrintRegion*> PrintRegionPtrs;
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// The complete print tray with possibly multiple objects.
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class Print
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{
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public:
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Print() { restart(); }
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~Print() { clear_objects(); }
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// Methods, which change the state of Print / PrintObject / PrintRegion.
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// The following methods are synchronized with process() and export_gcode(),
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// so that process() and export_gcode() may be called from a background thread.
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// In case the following methods need to modify data processed by process() or export_gcode(),
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// a cancellation callback is executed to stop the background processing before the operation.
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void clear_objects();
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void delete_object(size_t idx);
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void reload_object(size_t idx);
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bool reload_model_instances();
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void add_model_object(ModelObject* model_object, int idx = -1);
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bool apply_config(DynamicPrintConfig config);
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void process();
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void export_gcode(const std::string &path_template, GCodePreviewData *preview_data);
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// SLA export, temporary.
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void export_png(const std::string &dirpath);
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// methods for handling state
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bool is_step_done(PrintStep step) const { return m_state.is_done(step); }
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bool is_step_done(PrintObjectStep step) const;
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bool has_infinite_skirt() const;
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bool has_skirt() const;
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PrintObjectPtrs get_printable_objects() const;
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float get_wipe_tower_depth() const { return m_wipe_tower_data.depth; }
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// Returns an empty string if valid, otherwise returns an error message.
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std::string validate() const;
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BoundingBox bounding_box() const;
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BoundingBox total_bounding_box() const;
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double skirt_first_layer_height() const;
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Flow brim_flow() const;
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Flow skirt_flow() const;
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std::vector<unsigned int> object_extruders() const;
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std::vector<unsigned int> support_material_extruders() const;
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std::vector<unsigned int> extruders() const;
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double max_allowed_layer_height() const;
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bool has_support_material() const;
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// Make sure the background processing has no access to this model_object during this call!
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void auto_assign_extruders(ModelObject* model_object) const;
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const PrintConfig& config() const { return m_config; }
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const PrintObjectConfig& default_object_config() const { return m_default_object_config; }
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const PrintRegionConfig& default_region_config() const { return m_default_region_config; }
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const PrintObjectPtrs& objects() const { return m_objects; }
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PrintObject* get_object(size_t idx) { return m_objects[idx]; }
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const PrintObject* get_object(size_t idx) const { return m_objects[idx]; }
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const PrintRegionPtrs& regions() const { return m_regions; }
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const PlaceholderParser& placeholder_parser() const { return m_placeholder_parser; }
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PlaceholderParser& placeholder_parser() { return m_placeholder_parser; }
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// Returns extruder this eec should be printed with, according to PrintRegion config:
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static int get_extruder(const ExtrusionEntityCollection& fill, const PrintRegion ®ion);
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const ExtrusionEntityCollection& skirt() const { return m_skirt; }
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const ExtrusionEntityCollection& brim() const { return m_brim; }
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const PrintStatistics& print_statistics() const { return m_print_statistics; }
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// Wipe tower support.
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bool has_wipe_tower() const;
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const WipeTowerData& wipe_tower_data() const { return m_wipe_tower_data; }
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std::string output_filename() const;
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std::string output_filepath(const std::string &path) const;
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typedef std::function<void(int, const std::string&)> 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 = [](int, const std::string&){}; }
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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) {
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if (m_status_callback) m_status_callback(percent, message);
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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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bool canceled() const { return m_canceled; }
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// Cancel the running computation. Stop execution of all the background threads.
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void cancel() { m_canceled = true; }
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// Cancel the running computation. Stop execution of all the background threads.
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void restart() { m_canceled = false; }
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// Accessed by SupportMaterial
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const PrintRegion* get_region(size_t idx) const { return m_regions[idx]; }
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protected:
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void set_started(PrintStep step) { m_state.set_started(step, m_mutex); throw_if_canceled(); }
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void set_done(PrintStep step) { m_state.set_done(step, m_mutex); throw_if_canceled(); }
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bool invalidate_step(PrintStep step);
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bool invalidate_all_steps() { return m_state.invalidate_all(m_mutex, m_cancel_callback); }
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// methods for handling regions
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PrintRegion* get_region(size_t idx) { return m_regions[idx]; }
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PrintRegion* add_region();
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PrintRegion* add_region(const PrintRegionConfig &config);
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private:
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bool invalidate_state_by_config_options(const std::vector<t_config_option_key> &opt_keys);
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PrintRegionConfig _region_config_from_model_volume(const ModelVolume &volume);
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|
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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_canceled) throw CanceledException(); }
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|
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void _make_skirt();
|
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void _make_brim();
|
|
void _make_wipe_tower();
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void _simplify_slices(double distance);
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|
|
|
PrintState<PrintStep, psCount> m_state;
|
|
// 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_mutex;
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|
|
|
// Has the calculation been canceled?
|
|
tbb::atomic<bool> m_canceled;
|
|
// Callback to be evoked regularly to update state of the UI thread.
|
|
status_callback_type m_status_callback;
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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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|
|
|
PrintConfig m_config;
|
|
PrintObjectConfig m_default_object_config;
|
|
PrintRegionConfig m_default_region_config;
|
|
PrintObjectPtrs m_objects;
|
|
PrintRegionPtrs m_regions;
|
|
PlaceholderParser m_placeholder_parser;
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|
|
|
// Ordered collections of extrusion paths to build skirt loops and brim.
|
|
ExtrusionEntityCollection m_skirt;
|
|
ExtrusionEntityCollection m_brim;
|
|
|
|
// Following section will be consumed by the GCodeGenerator.
|
|
WipeTowerData m_wipe_tower_data;
|
|
|
|
// Estimated print time, filament consumed.
|
|
PrintStatistics m_print_statistics;
|
|
|
|
// To allow GCode to set the Print's GCodeExport step status.
|
|
friend class GCode;
|
|
// Allow PrintObject to access m_mutex and m_cancel_callback.
|
|
friend class PrintObject;
|
|
};
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|
|
|
#define FOREACH_BASE(type, container, iterator) for (type::const_iterator iterator = (container).begin(); iterator != (container).end(); ++iterator)
|
|
#define FOREACH_OBJECT(print, object) FOREACH_BASE(PrintObjectPtrs, (print)->m_objects, object)
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|
#define FOREACH_LAYER(object, layer) FOREACH_BASE(LayerPtrs, (object)->m_layers, layer)
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|
#define FOREACH_LAYERREGION(layer, layerm) FOREACH_BASE(LayerRegionPtrs, (layer)->m_regions, layerm)
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|
|
|
}
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|
|
#endif
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