#include "Print.hpp" #include "ToolOrdering.hpp" #include "Layer.hpp" // #define SLIC3R_DEBUG // Make assert active if SLIC3R_DEBUG #ifdef SLIC3R_DEBUG #define DEBUG #define _DEBUG #undef NDEBUG #endif #include #include #include namespace Slic3r { // Returns true in case that extruder a comes before b (b does not have to be present). False otherwise. bool LayerTools::is_extruder_order(unsigned int a, unsigned int b) const { if (a == b) return false; for (auto extruder : extruders) { if (extruder == a) return true; if (extruder == b) return false; } return false; } // Return a zero based extruder from the region, or extruder_override if overriden. unsigned int LayerTools::perimeter_extruder(const PrintRegion ®ion) const { assert(region.config().perimeter_extruder.value > 0); return ((this->extruder_override == 0) ? region.config().perimeter_extruder.value : this->extruder_override) - 1; } unsigned int LayerTools::infill_extruder(const PrintRegion ®ion) const { assert(region.config().infill_extruder.value > 0); return ((this->extruder_override == 0) ? region.config().infill_extruder.value : this->extruder_override) - 1; } unsigned int LayerTools::solid_infill_extruder(const PrintRegion ®ion) const { assert(region.config().solid_infill_extruder.value > 0); return ((this->extruder_override == 0) ? region.config().solid_infill_extruder.value : this->extruder_override) - 1; } // Returns a zero based extruder this eec should be printed with, according to PrintRegion config or extruder_override if overriden. unsigned int LayerTools::extruder(const ExtrusionEntityCollection &extrusions, const PrintRegion ®ion) const { assert(region.config().perimeter_extruder.value > 0); assert(region.config().infill_extruder.value > 0); assert(region.config().solid_infill_extruder.value > 0); // 1 based extruder ID. unsigned int extruder = ((this->extruder_override == 0) ? (is_infill(extrusions.role()) ? (is_solid_infill(extrusions.entities.front()->role()) ? region.config().solid_infill_extruder : region.config().infill_extruder) : region.config().perimeter_extruder.value) : this->extruder_override); return (extruder == 0) ? 0 : extruder - 1; } // For the use case when each object is printed separately // (print.config().complete_objects is true). ToolOrdering::ToolOrdering(const PrintObject &object, unsigned int first_extruder, bool prime_multi_material) { if (object.layers().empty()) return; // Initialize the print layers for just a single object. { std::vector zs; zs.reserve(zs.size() + object.layers().size() + object.support_layers().size()); for (auto layer : object.layers()) zs.emplace_back(layer->print_z); for (auto layer : object.support_layers()) zs.emplace_back(layer->print_z); this->initialize_layers(zs); } // Collect extruders reuqired to print the layers. this->collect_extruders(object, std::vector>()); // Reorder the extruders to minimize tool switches. this->reorder_extruders(first_extruder); this->fill_wipe_tower_partitions(object.print()->config(), object.layers().front()->print_z - object.layers().front()->height, object.config().layer_height); this->collect_extruder_statistics(prime_multi_material); } // For the use case when all objects are printed at once. // (print.config().complete_objects is false). ToolOrdering::ToolOrdering(const Print &print, unsigned int first_extruder, bool prime_multi_material) { m_print_config_ptr = &print.config(); // Initialize the print layers for all objects and all layers. coordf_t object_bottom_z = 0.; coordf_t max_layer_height = 0.; { std::vector zs; for (auto object : print.objects()) { zs.reserve(zs.size() + object->layers().size() + object->support_layers().size()); for (auto layer : object->layers()) zs.emplace_back(layer->print_z); for (auto layer : object->support_layers()) zs.emplace_back(layer->print_z); // Find first object layer that is not empty and save its print_z for (const Layer* layer : object->layers()) if (layer->has_extrusions()) { object_bottom_z = layer->print_z - layer->height; break; } max_layer_height = std::max(max_layer_height, object->config().layer_height.value); } this->initialize_layers(zs); } // Use the extruder switches from Model::custom_gcode_per_print_z to override the extruder to print the object. // Do it only if all the objects were configured to be printed with a single extruder. std::vector> per_layer_extruder_switches; if (auto num_extruders = unsigned(print.config().nozzle_diameter.size()); num_extruders > 1 && print.object_extruders().size() == 1 && // the current Print's configuration is CustomGCode::MultiAsSingle print.model().custom_gcode_per_print_z.mode == CustomGCode::MultiAsSingle) { // Printing a single extruder platter on a printer with more than 1 extruder (or single-extruder multi-material). // There may be custom per-layer tool changes available at the model. per_layer_extruder_switches = custom_tool_changes(print.model().custom_gcode_per_print_z, num_extruders); } // Collect extruders reuqired to print the layers. for (auto object : print.objects()) this->collect_extruders(*object, per_layer_extruder_switches); // Reorder the extruders to minimize tool switches. this->reorder_extruders(first_extruder); this->fill_wipe_tower_partitions(print.config(), object_bottom_z, max_layer_height); this->collect_extruder_statistics(prime_multi_material); } void ToolOrdering::initialize_layers(std::vector &zs) { sort_remove_duplicates(zs); // Merge numerically very close Z values. for (size_t i = 0; i < zs.size();) { // Find the last layer with roughly the same print_z. size_t j = i + 1; coordf_t zmax = zs[i] + EPSILON; for (; j < zs.size() && zs[j] <= zmax; ++ j) ; // Assign an average print_z to the set of layers with nearly equal print_z. m_layer_tools.emplace_back(LayerTools(0.5 * (zs[i] + zs[j-1]))); i = j; } } // Collect extruders reuqired to print layers. void ToolOrdering::collect_extruders(const PrintObject &object, const std::vector> &per_layer_extruder_switches) { // Collect the support extruders. for (auto support_layer : object.support_layers()) { LayerTools &layer_tools = this->tools_for_layer(support_layer->print_z); ExtrusionRole role = support_layer->support_fills.role(); bool has_support = role == erMixed || role == erSupportMaterial; bool has_interface = role == erMixed || role == erSupportMaterialInterface; unsigned int extruder_support = object.config().support_material_extruder.value; unsigned int extruder_interface = object.config().support_material_interface_extruder.value; if (has_support) layer_tools.extruders.push_back(extruder_support); if (has_interface) layer_tools.extruders.push_back(extruder_interface); if (has_support || has_interface) layer_tools.has_support = true; } // Extruder overrides are ordered by print_z. std::vector>::const_iterator it_per_layer_extruder_override; it_per_layer_extruder_override = per_layer_extruder_switches.begin(); unsigned int extruder_override = 0; // Collect the object extruders. for (auto layer : object.layers()) { LayerTools &layer_tools = this->tools_for_layer(layer->print_z); // Override extruder with the next for (; it_per_layer_extruder_override != per_layer_extruder_switches.end() && it_per_layer_extruder_override->first < layer->print_z + EPSILON; ++ it_per_layer_extruder_override) extruder_override = (int)it_per_layer_extruder_override->second; // Store the current extruder override (set to zero if no overriden), so that layer_tools.wiping_extrusions().is_overridable_and_mark() will use it. layer_tools.extruder_override = extruder_override; // What extruders are required to print this object layer? for (size_t region_id = 0; region_id < object.region_volumes.size(); ++ region_id) { const LayerRegion *layerm = (region_id < layer->regions().size()) ? layer->regions()[region_id] : nullptr; if (layerm == nullptr) continue; const PrintRegion ®ion = *object.print()->regions()[region_id]; if (! layerm->perimeters.entities.empty()) { bool something_nonoverriddable = true; if (m_print_config_ptr) { // in this case complete_objects is false (see ToolOrdering constructors) something_nonoverriddable = false; for (const auto& eec : layerm->perimeters.entities) // let's check if there are nonoverriddable entities if (!layer_tools.wiping_extrusions().is_overriddable_and_mark(dynamic_cast(*eec), *m_print_config_ptr, object, region)) something_nonoverriddable = true; } if (something_nonoverriddable) layer_tools.extruders.emplace_back((extruder_override == 0) ? region.config().perimeter_extruder.value : extruder_override); layer_tools.has_object = true; } bool has_infill = false; bool has_solid_infill = false; bool something_nonoverriddable = false; for (const ExtrusionEntity *ee : layerm->fills.entities) { // fill represents infill extrusions of a single island. const auto *fill = dynamic_cast(ee); ExtrusionRole role = fill->entities.empty() ? erNone : fill->entities.front()->role(); if (is_solid_infill(role)) has_solid_infill = true; else if (role != erNone) has_infill = true; if (m_print_config_ptr) { if (! layer_tools.wiping_extrusions().is_overriddable_and_mark(*fill, *m_print_config_ptr, object, region)) something_nonoverriddable = true; } } if (something_nonoverriddable || !m_print_config_ptr) { if (extruder_override == 0) { if (has_solid_infill) layer_tools.extruders.emplace_back(region.config().solid_infill_extruder); if (has_infill) layer_tools.extruders.emplace_back(region.config().infill_extruder); } else if (has_solid_infill || has_infill) layer_tools.extruders.emplace_back(extruder_override); } if (has_solid_infill || has_infill) layer_tools.has_object = true; } } for (auto& layer : m_layer_tools) { // Sort and remove duplicates sort_remove_duplicates(layer.extruders); // make sure that there are some tools for each object layer (e.g. tall wiping object will result in empty extruders vector) if (layer.extruders.empty() && layer.has_object) layer.extruders.emplace_back(0); // 0="dontcare" extruder - it will be taken care of in reorder_extruders } } // Reorder extruders to minimize layer changes. void ToolOrdering::reorder_extruders(unsigned int last_extruder_id) { if (m_layer_tools.empty()) return; if (last_extruder_id == (unsigned int)-1) { // The initial print extruder has not been decided yet. // Initialize the last_extruder_id with the first non-zero extruder id used for the print. last_extruder_id = 0; for (size_t i = 0; i < m_layer_tools.size() && last_extruder_id == 0; ++ i) { const LayerTools < = m_layer_tools[i]; for (unsigned int extruder_id : lt.extruders) if (extruder_id > 0) { last_extruder_id = extruder_id; break; } } if (last_extruder_id == 0) // Nothing to extrude. return; } else // 1 based index ++ last_extruder_id; for (LayerTools < : m_layer_tools) { if (lt.extruders.empty()) continue; if (lt.extruders.size() == 1 && lt.extruders.front() == 0) lt.extruders.front() = last_extruder_id; else { if (lt.extruders.front() == 0) // Pop the "don't care" extruder, the "don't care" region will be merged with the next one. lt.extruders.erase(lt.extruders.begin()); // Reorder the extruders to start with the last one. for (size_t i = 1; i < lt.extruders.size(); ++ i) if (lt.extruders[i] == last_extruder_id) { // Move the last extruder to the front. memmove(lt.extruders.data() + 1, lt.extruders.data(), i * sizeof(unsigned int)); lt.extruders.front() = last_extruder_id; break; } } last_extruder_id = lt.extruders.back(); } // Reindex the extruders, so they are zero based, not 1 based. for (LayerTools < : m_layer_tools) for (unsigned int &extruder_id : lt.extruders) { assert(extruder_id > 0); -- extruder_id; } } void ToolOrdering::fill_wipe_tower_partitions(const PrintConfig &config, coordf_t object_bottom_z, coordf_t max_object_layer_height) { if (m_layer_tools.empty()) return; // Count the minimum number of tool changes per layer. size_t last_extruder = size_t(-1); for (LayerTools < : m_layer_tools) { lt.wipe_tower_partitions = lt.extruders.size(); if (! lt.extruders.empty()) { if (last_extruder == size_t(-1) || last_extruder == lt.extruders.front()) // The first extruder on this layer is equal to the current one, no need to do an initial tool change. -- lt.wipe_tower_partitions; last_extruder = lt.extruders.back(); } } // Propagate the wipe tower partitions down to support the upper partitions by the lower partitions. for (int i = int(m_layer_tools.size()) - 2; i >= 0; -- i) m_layer_tools[i].wipe_tower_partitions = std::max(m_layer_tools[i + 1].wipe_tower_partitions, m_layer_tools[i].wipe_tower_partitions); //FIXME this is a hack to get the ball rolling. for (LayerTools < : m_layer_tools) lt.has_wipe_tower = (lt.has_object && lt.wipe_tower_partitions > 0) || lt.print_z < object_bottom_z + EPSILON; // Test for a raft, insert additional wipe tower layer to fill in the raft separation gap. double max_layer_height = std::numeric_limits::max(); for (size_t i = 0; i < config.nozzle_diameter.values.size(); ++ i) { double mlh = config.max_layer_height.values[i]; if (mlh == 0.) mlh = 0.75 * config.nozzle_diameter.values[i]; max_layer_height = std::min(max_layer_height, mlh); } // The Prusa3D Fast (0.35mm layer height) print profile sets a higher layer height than what is normally allowed // by the nozzle. This is a hack and it works by increasing extrusion width. See GH #3919. max_layer_height = std::max(max_layer_height, max_object_layer_height); for (size_t i = 0; i + 1 < m_layer_tools.size(); ++ i) { const LayerTools < = m_layer_tools[i]; const LayerTools <_next = m_layer_tools[i + 1]; if (lt.print_z < object_bottom_z + EPSILON && lt_next.print_z >= object_bottom_z + EPSILON) { // lt is the last raft layer. Find the 1st object layer. size_t j = i + 1; for (; j < m_layer_tools.size() && ! m_layer_tools[j].has_wipe_tower; ++ j); if (j < m_layer_tools.size()) { const LayerTools <_object = m_layer_tools[j]; coordf_t gap = lt_object.print_z - lt.print_z; assert(gap > 0.f); if (gap > max_layer_height + EPSILON) { // Insert one additional wipe tower layer between lh.print_z and lt_object.print_z. LayerTools lt_new(0.5f * (lt.print_z + lt_object.print_z)); // Find the 1st layer above lt_new. for (j = i + 1; j < m_layer_tools.size() && m_layer_tools[j].print_z < lt_new.print_z - EPSILON; ++ j); if (std::abs(m_layer_tools[j].print_z - lt_new.print_z) < EPSILON) { m_layer_tools[j].has_wipe_tower = true; } else { LayerTools <_extra = *m_layer_tools.insert(m_layer_tools.begin() + j, lt_new); //LayerTools <_prev = m_layer_tools[j]; LayerTools <_next = m_layer_tools[j + 1]; assert(! m_layer_tools[j - 1].extruders.empty() && ! lt_next.extruders.empty()); // FIXME: Following assert tripped when running combine_infill.t. I decided to comment it out for now. // If it is a bug, it's likely not critical, because this code is unchanged for a long time. It might // still be worth looking into it more and decide if it is a bug or an obsolete assert. //assert(lt_prev.extruders.back() == lt_next.extruders.front()); lt_extra.has_wipe_tower = true; lt_extra.extruders.push_back(lt_next.extruders.front()); lt_extra.wipe_tower_partitions = lt_next.wipe_tower_partitions; } } } break; } } // If the model contains empty layers (such as https://github.com/prusa3d/Slic3r/issues/1266), there might be layers // that were not marked as has_wipe_tower, even when they should have been. This produces a crash with soluble supports // and maybe other problems. We will therefore go through layer_tools and detect and fix this. // So, if there is a non-object layer starting with different extruder than the last one ended with (or containing more than one extruder), // we'll mark it with has_wipe tower. for (unsigned int i=0; i+1 1)) lt_next.has_wipe_tower = true; // We should also check that the next wipe tower layer is no further than max_layer_height: unsigned int j = i+1; double last_wipe_tower_print_z = lt_next.print_z; while (++j < m_layer_tools.size()-1 && !m_layer_tools[j].has_wipe_tower) if (m_layer_tools[j+1].print_z - last_wipe_tower_print_z > max_layer_height + EPSILON) { m_layer_tools[j].has_wipe_tower = true; last_wipe_tower_print_z = m_layer_tools[j].print_z; } } // Calculate the wipe_tower_layer_height values. coordf_t wipe_tower_print_z_last = 0.; for (LayerTools < : m_layer_tools) if (lt.has_wipe_tower) { lt.wipe_tower_layer_height = lt.print_z - wipe_tower_print_z_last; wipe_tower_print_z_last = lt.print_z; } } void ToolOrdering::collect_extruder_statistics(bool prime_multi_material) { m_first_printing_extruder = (unsigned int)-1; for (const auto < : m_layer_tools) if (! lt.extruders.empty()) { m_first_printing_extruder = lt.extruders.front(); break; } m_last_printing_extruder = (unsigned int)-1; for (auto lt_it = m_layer_tools.rbegin(); lt_it != m_layer_tools.rend(); ++ lt_it) if (! lt_it->extruders.empty()) { m_last_printing_extruder = lt_it->extruders.back(); break; } m_all_printing_extruders.clear(); for (const auto < : m_layer_tools) { append(m_all_printing_extruders, lt.extruders); sort_remove_duplicates(m_all_printing_extruders); } if (prime_multi_material && ! m_all_printing_extruders.empty()) { // Reorder m_all_printing_extruders in the sequence they will be primed, the last one will be m_first_printing_extruder. // Then set m_first_printing_extruder to the 1st extruder primed. m_all_printing_extruders.erase( std::remove_if(m_all_printing_extruders.begin(), m_all_printing_extruders.end(), [ this ](const unsigned int eid) { return eid == m_first_printing_extruder; }), m_all_printing_extruders.end()); m_all_printing_extruders.emplace_back(m_first_printing_extruder); m_first_printing_extruder = m_all_printing_extruders.front(); } } // Assign a pointer to a custom G-code to the respective ToolOrdering::LayerTools. // Ignore color changes, which are performed on a layer and for such an extruder, that the extruder will not be printing above that layer. // If multiple events are planned over a span of a single layer, use the last one. void ToolOrdering::assign_custom_gcodes(const Print &print) { // Only valid for non-sequential print. assert(! print.config().complete_objects.value); const CustomGCode::Info &custom_gcode_per_print_z = print.model().custom_gcode_per_print_z; if (custom_gcode_per_print_z.gcodes.empty()) return; auto num_extruders = unsigned(print.config().nozzle_diameter.size()); CustomGCode::Mode mode = (num_extruders == 1) ? CustomGCode::SingleExtruder : print.object_extruders().size() == 1 ? CustomGCode::MultiAsSingle : CustomGCode::MultiExtruder; CustomGCode::Mode model_mode = print.model().custom_gcode_per_print_z.mode; std::vector extruder_printing_above(num_extruders, false); auto custom_gcode_it = custom_gcode_per_print_z.gcodes.rbegin(); // Tool changes and color changes will be ignored, if the model's tool/color changes were entered in mm mode and the print is in non mm mode // or vice versa. bool ignore_tool_and_color_changes = (mode == CustomGCode::MultiExtruder) != (model_mode == CustomGCode::MultiExtruder); // If printing on a single extruder machine, make the tool changes trigger color change (M600) events. bool tool_changes_as_color_changes = mode == CustomGCode::SingleExtruder && model_mode == CustomGCode::MultiAsSingle; // From the last layer to the first one: for (auto it_lt = m_layer_tools.rbegin(); it_lt != m_layer_tools.rend(); ++ it_lt) { LayerTools < = *it_lt; // Add the extruders of the current layer to the set of extruders printing at and above this print_z. for (unsigned int i : lt.extruders) extruder_printing_above[i] = true; // Skip all custom G-codes above this layer and skip all extruder switches. for (; custom_gcode_it != custom_gcode_per_print_z.gcodes.rend() && (custom_gcode_it->print_z > lt.print_z + EPSILON || custom_gcode_it->type == CustomGCode::ToolChange); ++ custom_gcode_it); if (custom_gcode_it == custom_gcode_per_print_z.gcodes.rend()) // Custom G-codes were processed. break; // Some custom G-code is configured for this layer or a layer below. const CustomGCode::Item &custom_gcode = *custom_gcode_it; // print_z of the layer below the current layer. coordf_t print_z_below = 0.; if (auto it_lt_below = it_lt; ++ it_lt_below != m_layer_tools.rend()) print_z_below = it_lt_below->print_z; if (custom_gcode.print_z > print_z_below + 0.5 * EPSILON) { // The custom G-code applies to the current layer. bool color_change = custom_gcode.type == CustomGCode::ColorChange; bool tool_change = custom_gcode.type == CustomGCode::ToolChange; bool pause_or_custom_gcode = ! color_change && ! tool_change; bool apply_color_change = ! ignore_tool_and_color_changes && // If it is color change, it will actually be useful as the exturder above will print. (color_change ? mode == CustomGCode::SingleExtruder || (custom_gcode.extruder <= int(num_extruders) && extruder_printing_above[unsigned(custom_gcode.extruder - 1)]) : tool_change && tool_changes_as_color_changes); if (pause_or_custom_gcode || apply_color_change) lt.custom_gcode = &custom_gcode; // Consume that custom G-code event. ++ custom_gcode_it; } } } const LayerTools& ToolOrdering::tools_for_layer(coordf_t print_z) const { auto it_layer_tools = std::lower_bound(m_layer_tools.begin(), m_layer_tools.end(), LayerTools(print_z - EPSILON)); assert(it_layer_tools != m_layer_tools.end()); coordf_t dist_min = std::abs(it_layer_tools->print_z - print_z); for (++ it_layer_tools; it_layer_tools != m_layer_tools.end(); ++ it_layer_tools) { coordf_t d = std::abs(it_layer_tools->print_z - print_z); if (d >= dist_min) break; dist_min = d; } -- it_layer_tools; assert(dist_min < EPSILON); return *it_layer_tools; } // This function is called from Print::mark_wiping_extrusions and sets extruder this entity should be printed with (-1 .. as usual) void WipingExtrusions::set_extruder_override(const ExtrusionEntity* entity, size_t copy_id, int extruder, size_t num_of_copies) { something_overridden = true; auto entity_map_it = (entity_map.emplace(entity, ExtruderPerCopy())).first; // (add and) return iterator ExtruderPerCopy& copies_vector = entity_map_it->second; copies_vector.resize(num_of_copies, -1); if (copies_vector[copy_id] != -1) std::cout << "ERROR: Entity extruder overriden multiple times!!!\n"; // A debugging message - this must never happen. copies_vector[copy_id] = extruder; } // Finds first non-soluble extruder on the layer int WipingExtrusions::first_nonsoluble_extruder_on_layer(const PrintConfig& print_config) const { const LayerTools& lt = *m_layer_tools; for (auto extruders_it = lt.extruders.begin(); extruders_it != lt.extruders.end(); ++extruders_it) if (!print_config.filament_soluble.get_at(*extruders_it)) return (*extruders_it); return (-1); } // Finds last non-soluble extruder on the layer int WipingExtrusions::last_nonsoluble_extruder_on_layer(const PrintConfig& print_config) const { const LayerTools& lt = *m_layer_tools; for (auto extruders_it = lt.extruders.rbegin(); extruders_it != lt.extruders.rend(); ++extruders_it) if (!print_config.filament_soluble.get_at(*extruders_it)) return (*extruders_it); return (-1); } // Decides whether this entity could be overridden bool WipingExtrusions::is_overriddable(const ExtrusionEntityCollection& eec, const PrintConfig& print_config, const PrintObject& object, const PrintRegion& region) const { if (print_config.filament_soluble.get_at(m_layer_tools->extruder(eec, region))) return false; if (object.config().wipe_into_objects) return true; if (!region.config().wipe_into_infill || eec.role() != erInternalInfill) return false; return true; } // Following function iterates through all extrusions on the layer, remembers those that could be used for wiping after toolchange // and returns volume that is left to be wiped on the wipe tower. float WipingExtrusions::mark_wiping_extrusions(const Print& print, unsigned int old_extruder, unsigned int new_extruder, float volume_to_wipe) { const LayerTools& lt = *m_layer_tools; const float min_infill_volume = 0.f; // ignore infill with smaller volume than this if (! this->something_overridable || volume_to_wipe <= 0. || print.config().filament_soluble.get_at(old_extruder) || print.config().filament_soluble.get_at(new_extruder)) return std::max(0.f, volume_to_wipe); // Soluble filament cannot be wiped in a random infill, neither the filament after it // we will sort objects so that dedicated for wiping are at the beginning: PrintObjectPtrs object_list = print.objects(); std::sort(object_list.begin(), object_list.end(), [](const PrintObject* a, const PrintObject* b) { return a->config().wipe_into_objects; }); // We will now iterate through // - first the dedicated objects to mark perimeters or infills (depending on infill_first) // - second through the dedicated ones again to mark infills or perimeters (depending on infill_first) // - then all the others to mark infills (in case that !infill_first, we must also check that the perimeter is finished already // this is controlled by the following variable: bool perimeters_done = false; for (int i=0 ; i<(int)object_list.size() + (perimeters_done ? 0 : 1); ++i) { if (!perimeters_done && (i==(int)object_list.size() || !object_list[i]->config().wipe_into_objects)) { // we passed the last dedicated object in list perimeters_done = true; i=-1; // let's go from the start again continue; } const PrintObject* object = object_list[i]; // Finds this layer: const Layer* this_layer = object->get_layer_at_printz(lt.print_z, EPSILON); if (this_layer == nullptr) continue; size_t num_of_copies = object->instances().size(); // iterate through copies (aka PrintObject instances) first, so that we mark neighbouring infills to minimize travel moves for (unsigned int copy = 0; copy < num_of_copies; ++copy) { for (size_t region_id = 0; region_id < object->region_volumes.size(); ++ region_id) { const auto& region = *object->print()->regions()[region_id]; if (!region.config().wipe_into_infill && !object->config().wipe_into_objects) continue; bool wipe_into_infill_only = ! object->config().wipe_into_objects && region.config().wipe_into_infill; if (print.config().infill_first != perimeters_done || wipe_into_infill_only) { for (const ExtrusionEntity* ee : this_layer->regions()[region_id]->fills.entities) { // iterate through all infill Collections auto* fill = dynamic_cast(ee); if (!is_overriddable(*fill, print.config(), *object, region)) continue; if (wipe_into_infill_only && ! print.config().infill_first) // In this case we must check that the original extruder is used on this layer before the one we are overridding // (and the perimeters will be finished before the infill is printed): if (!lt.is_extruder_order(lt.perimeter_extruder(region), new_extruder)) continue; if ((!is_entity_overridden(fill, copy) && fill->total_volume() > min_infill_volume)) { // this infill will be used to wipe this extruder set_extruder_override(fill, copy, new_extruder, num_of_copies); if ((volume_to_wipe -= float(fill->total_volume())) <= 0.f) // More material was purged already than asked for. return 0.f; } } } // Now the same for perimeters - see comments above for explanation: if (object->config().wipe_into_objects && print.config().infill_first == perimeters_done) { for (const ExtrusionEntity* ee : this_layer->regions()[region_id]->perimeters.entities) { auto* fill = dynamic_cast(ee); if (is_overriddable(*fill, print.config(), *object, region) && !is_entity_overridden(fill, copy) && fill->total_volume() > min_infill_volume) { set_extruder_override(fill, copy, new_extruder, num_of_copies); if ((volume_to_wipe -= float(fill->total_volume())) <= 0.f) // More material was purged already than asked for. return 0.f; } } } } } } // Some purge remains to be done on the Wipe Tower. assert(volume_to_wipe > 0.); return volume_to_wipe; } // Called after all toolchanges on a layer were mark_infill_overridden. There might still be overridable entities, // that were not actually overridden. If they are part of a dedicated object, printing them with the extruder // they were initially assigned to might mean violating the perimeter-infill order. We will therefore go through // them again and make sure we override it. void WipingExtrusions::ensure_perimeters_infills_order(const Print& print) { if (! this->something_overridable) return; const LayerTools& lt = *m_layer_tools; unsigned int first_nonsoluble_extruder = first_nonsoluble_extruder_on_layer(print.config()); unsigned int last_nonsoluble_extruder = last_nonsoluble_extruder_on_layer(print.config()); for (const PrintObject* object : print.objects()) { // Finds this layer: const Layer* this_layer = object->get_layer_at_printz(lt.print_z, EPSILON); if (this_layer == nullptr) continue; size_t num_of_copies = object->instances().size(); for (size_t copy = 0; copy < num_of_copies; ++copy) { // iterate through copies first, so that we mark neighbouring infills to minimize travel moves for (size_t region_id = 0; region_id < object->region_volumes.size(); ++ region_id) { const auto& region = *object->print()->regions()[region_id]; if (!region.config().wipe_into_infill && !object->config().wipe_into_objects) continue; for (const ExtrusionEntity* ee : this_layer->regions()[region_id]->fills.entities) { // iterate through all infill Collections auto* fill = dynamic_cast(ee); if (!is_overriddable(*fill, print.config(), *object, region) || is_entity_overridden(fill, copy) ) continue; // This infill could have been overridden but was not - unless we do something, it could be // printed before its perimeter, or not be printed at all (in case its original extruder has // not been added to LayerTools // Either way, we will now force-override it with something suitable: if (print.config().infill_first || object->config().wipe_into_objects // in this case the perimeter is overridden, so we can override by the last one safely || lt.is_extruder_order(lt.perimeter_extruder(region), last_nonsoluble_extruder // !infill_first, but perimeter is already printed when last extruder prints || ! lt.has_extruder(lt.infill_extruder(region)))) // we have to force override - this could violate infill_first (FIXME) set_extruder_override(fill, copy, (print.config().infill_first ? first_nonsoluble_extruder : last_nonsoluble_extruder), num_of_copies); else { // In this case we can (and should) leave it to be printed normally. // Force overriding would mean it gets printed before its perimeter. } } // Now the same for perimeters - see comments above for explanation: for (const ExtrusionEntity* ee : this_layer->regions()[region_id]->perimeters.entities) { // iterate through all perimeter Collections auto* fill = dynamic_cast(ee); if (is_overriddable(*fill, print.config(), *object, region) && ! is_entity_overridden(fill, copy)) set_extruder_override(fill, copy, (print.config().infill_first ? last_nonsoluble_extruder : first_nonsoluble_extruder), num_of_copies); } } } } } // Following function is called from GCode::process_layer and returns pointer to vector with information about which extruders should be used for given copy of this entity. // If this extrusion does not have any override, nullptr is returned. // Otherwise it modifies the vector in place and changes all -1 to correct_extruder_id (at the time the overrides were created, correct extruders were not known, // so -1 was used as "print as usual"). // The resulting vector therefore keeps track of which extrusions are the ones that were overridden and which were not. If the extruder used is overridden, // its number is saved as is (zero-based index). Regular extrusions are saved as -number-1 (unfortunately there is no negative zero). const WipingExtrusions::ExtruderPerCopy* WipingExtrusions::get_extruder_overrides(const ExtrusionEntity* entity, int correct_extruder_id, size_t num_of_copies) { ExtruderPerCopy *overrides = nullptr; auto entity_map_it = entity_map.find(entity); if (entity_map_it != entity_map.end()) { overrides = &entity_map_it->second; overrides->resize(num_of_copies, -1); // Each -1 now means "print as usual" - we will replace it with actual extruder id (shifted it so we don't lose that information): std::replace(overrides->begin(), overrides->end(), -1, -correct_extruder_id-1); } return overrides; } } // namespace Slic3r