// Ordering of the tools to minimize tool switches. #ifndef slic3r_ToolOrdering_hpp_ #define slic3r_ToolOrdering_hpp_ #include "../libslic3r.h" namespace Slic3r { class Print; class PrintObject; class LayerTools; // Object of this class holds information about whether an extrusion is printed immediately // after a toolchange (as part of infill/perimeter wiping) or not. One extrusion can be a part // of several copies - this has to be taken into account. class WipingExtrusions { public: bool is_anything_overridden() const { // if there are no overrides, all the agenda can be skipped - this function can tell us if that's the case return something_overridden; } // This is called from GCode::process_layer - see implementation for further comments: const std::vector* get_extruder_overrides(const ExtrusionEntity* entity, int correct_extruder_id, int num_of_copies); // This function goes through all infill entities, decides which ones will be used for wiping and // marks them by the extruder id. Returns volume that remains to be wiped on the wipe tower: float mark_wiping_extrusions(const Print& print, unsigned int old_extruder, unsigned int new_extruder, float volume_to_wipe); void ensure_perimeters_infills_order(const Print& print); bool is_overriddable(const ExtrusionEntityCollection& ee, const PrintConfig& print_config, const PrintObject& object, const PrintRegion& region) const; void set_layer_tools_ptr(const LayerTools* lt) { m_layer_tools = lt; } private: int first_nonsoluble_extruder_on_layer(const PrintConfig& print_config) const; int last_nonsoluble_extruder_on_layer(const PrintConfig& print_config) const; // This function is called from mark_wiping_extrusions and sets extruder that it should be printed with (-1 .. as usual) void set_extruder_override(const ExtrusionEntity* entity, unsigned int copy_id, int extruder, unsigned int num_of_copies); // Returns true in case that entity is not printed with its usual extruder for a given copy: bool is_entity_overridden(const ExtrusionEntity* entity, int copy_id) const { return (entity_map.find(entity) == entity_map.end() ? false : entity_map.at(entity).at(copy_id) != -1); } std::map> entity_map; // to keep track of who prints what bool something_overridden = false; const LayerTools* m_layer_tools; // so we know which LayerTools object this belongs to }; class LayerTools { public: LayerTools(const coordf_t z, const PrintConfig* print_config_ptr = nullptr) : print_z(z), has_object(false), has_support(false), has_wipe_tower(false), wipe_tower_partitions(0), wipe_tower_layer_height(0.) {} // Changing these operators to epsilon version can make a problem in cases where support and object layers get close to each other. // In case someone tries to do it, make sure you know what you're doing and test it properly (slice multiple objects at once with supports). bool operator< (const LayerTools &rhs) const { return print_z < rhs.print_z; } bool operator==(const LayerTools &rhs) const { return print_z == rhs.print_z; } bool is_extruder_order(unsigned int a, unsigned int b) const; coordf_t print_z; bool has_object; bool has_support; // Zero based extruder IDs, ordered to minimize tool switches. std::vector extruders; // Will there be anything extruded on this layer for the wipe tower? // Due to the support layers possibly interleaving the object layers, // wipe tower will be disabled for some support only layers. bool has_wipe_tower; // Number of wipe tower partitions to support the required number of tool switches // and to support the wipe tower partitions above this one. size_t wipe_tower_partitions; coordf_t wipe_tower_layer_height; WipingExtrusions& wiping_extrusions() { m_wiping_extrusions.set_layer_tools_ptr(this); return m_wiping_extrusions; } private: // This object holds list of extrusion that will be used for extruder wiping WipingExtrusions m_wiping_extrusions; }; class ToolOrdering { public: ToolOrdering() {} // For the use case when each object is printed separately // (print.config.complete_objects is true). ToolOrdering(const PrintObject &object, unsigned int first_extruder = (unsigned int)-1, bool prime_multi_material = false); // For the use case when all objects are printed at once. // (print.config.complete_objects is false). ToolOrdering(const Print &print, unsigned int first_extruder = (unsigned int)-1, bool prime_multi_material = false); void clear() { m_layer_tools.clear(); } // Get the first extruder printing, including the extruder priming areas, returns -1 if there is no layer printed. unsigned int first_extruder() const { return m_first_printing_extruder; } // Get the first extruder printing the layer_tools, returns -1 if there is no layer printed. unsigned int last_extruder() const { return m_last_printing_extruder; } // For a multi-material print, the printing extruders are ordered in the order they shall be primed. const std::vector& all_extruders() const { return m_all_printing_extruders; } template static auto tools_for_layer(Self& self, coordf_t print_z) -> decltype (*self.m_layer_tools.begin()) { auto it_layer_tools = std::lower_bound(self.m_layer_tools.begin(), self.m_layer_tools.end(), LayerTools(print_z - EPSILON)); assert(it_layer_tools != self.m_layer_tools.end()); coordf_t dist_min = std::abs(it_layer_tools->print_z - print_z); for (++ it_layer_tools; it_layer_tools != self.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; } // Find LayerTools with the closest print_z. LayerTools& tools_for_layer(coordf_t print_z) { return tools_for_layer(*this, print_z); } const LayerTools& tools_for_layer(coordf_t print_z) const { return tools_for_layer(*this, print_z); } const LayerTools& front() const { return m_layer_tools.front(); } const LayerTools& back() const { return m_layer_tools.back(); } std::vector::const_iterator begin() const { return m_layer_tools.begin(); } std::vector::const_iterator end() const { return m_layer_tools.end(); } bool empty() const { return m_layer_tools.empty(); } std::vector& layer_tools() { return m_layer_tools; } bool has_wipe_tower() const { return ! m_layer_tools.empty() && m_first_printing_extruder != (unsigned int)-1 && m_layer_tools.front().wipe_tower_partitions > 0; } private: void initialize_layers(std::vector &zs); void collect_extruders(const PrintObject &object); void reorder_extruders(unsigned int last_extruder_id); void fill_wipe_tower_partitions(const PrintConfig &config, coordf_t object_bottom_z); void collect_extruder_statistics(bool prime_multi_material); std::vector m_layer_tools; // First printing extruder, including the multi-material priming sequence. unsigned int m_first_printing_extruder = (unsigned int)-1; // Final printing extruder. unsigned int m_last_printing_extruder = (unsigned int)-1; // All extruders, which extrude some material over m_layer_tools. std::vector m_all_printing_extruders; const PrintConfig* m_print_config_ptr = nullptr; }; } // namespace SLic3r #endif /* slic3r_ToolOrdering_hpp_ */