#ifndef slic3r_ExtrusionEntityCollection_hpp_ #define slic3r_ExtrusionEntityCollection_hpp_ #include "libslic3r.h" #include "Exception.hpp" #include "ExtrusionEntity.hpp" namespace Slic3r { // Remove those items from extrusion_entities, that do not match role. // Do nothing if role is mixed. // Removed elements are NOT being deleted. void filter_by_extrusion_role_in_place(ExtrusionEntitiesPtr &extrusion_entities, ExtrusionRole role); // Return new vector of ExtrusionEntities* with only those items from input extrusion_entities, that match role. // Return all extrusion entities if role is mixed. // Returned extrusion entities are shared with the source vector, they are NOT cloned, they are considered to be owned by extrusion_entities. inline ExtrusionEntitiesPtr filter_by_extrusion_role(const ExtrusionEntitiesPtr &extrusion_entities, ExtrusionRole role) { ExtrusionEntitiesPtr out { extrusion_entities }; filter_by_extrusion_role_in_place(out, role); return out; } class ExtrusionEntityCollection : public ExtrusionEntity { public: ExtrusionEntity* clone() const override; // Create a new object, initialize it with this object using the move semantics. ExtrusionEntity* clone_move() override { return new ExtrusionEntityCollection(std::move(*this)); } ExtrusionEntitiesPtr entities; // we own these entities bool no_sort; ExtrusionEntityCollection(): no_sort(false) {} ExtrusionEntityCollection(const ExtrusionEntityCollection &other) : no_sort(other.no_sort) { this->append(other.entities); } ExtrusionEntityCollection(ExtrusionEntityCollection &&other) : entities(std::move(other.entities)), no_sort(other.no_sort) {} explicit ExtrusionEntityCollection(const ExtrusionPaths &paths); ExtrusionEntityCollection& operator=(const ExtrusionEntityCollection &other); ExtrusionEntityCollection& operator=(ExtrusionEntityCollection &&other) { this->entities = std::move(other.entities); this->no_sort = other.no_sort; return *this; } ~ExtrusionEntityCollection() { clear(); } explicit operator ExtrusionPaths() const; bool is_collection() const override { return true; } ExtrusionRole role() const override { ExtrusionRole out = erNone; for (const ExtrusionEntity *ee : entities) { ExtrusionRole er = ee->role(); out = (out == erNone || out == er) ? er : erMixed; } return out; } bool can_reverse() const override { return !this->no_sort; } bool empty() const { return this->entities.empty(); } void clear(); void swap (ExtrusionEntityCollection &c); void append(const ExtrusionEntity &entity) { this->entities.emplace_back(entity.clone()); } void append(ExtrusionEntity &&entity) { this->entities.emplace_back(entity.clone_move()); } void append(const ExtrusionEntitiesPtr &entities) { this->entities.reserve(this->entities.size() + entities.size()); for (const ExtrusionEntity *ptr : entities) this->entities.emplace_back(ptr->clone()); } void append(ExtrusionEntitiesPtr &&src) { if (entities.empty()) entities = std::move(src); else { std::move(std::begin(src), std::end(src), std::back_inserter(entities)); src.clear(); } } void append(const ExtrusionPaths &paths) { this->entities.reserve(this->entities.size() + paths.size()); for (const ExtrusionPath &path : paths) this->entities.emplace_back(path.clone()); } void append(ExtrusionPaths &&paths) { this->entities.reserve(this->entities.size() + paths.size()); for (ExtrusionPath &path : paths) this->entities.emplace_back(new ExtrusionPath(std::move(path))); } void replace(size_t i, const ExtrusionEntity &entity); void remove(size_t i); static ExtrusionEntityCollection chained_path_from(const ExtrusionEntitiesPtr &extrusion_entities, const Point &start_near, ExtrusionRole role = erMixed); ExtrusionEntityCollection chained_path_from(const Point &start_near, ExtrusionRole role = erMixed) const { return this->no_sort ? *this : chained_path_from(this->entities, start_near, role); } void reverse() override; const Point& first_point() const override { return this->entities.front()->first_point(); } const Point& last_point() const override { return this->entities.back()->last_point(); } // Produce a list of 2D polygons covered by the extruded paths, offsetted by the extrusion width. // Increase the offset by scaled_epsilon to achieve an overlap, so a union will produce no gaps. void polygons_covered_by_width(Polygons &out, const float scaled_epsilon) const override; // Produce a list of 2D polygons covered by the extruded paths, offsetted by the extrusion spacing. // Increase the offset by scaled_epsilon to achieve an overlap, so a union will produce no gaps. // Useful to calculate area of an infill, which has been really filled in by a 100% rectilinear infill. void polygons_covered_by_spacing(Polygons &out, const float scaled_epsilon) const override; Polygons polygons_covered_by_width(const float scaled_epsilon = 0.f) const { Polygons out; this->polygons_covered_by_width(out, scaled_epsilon); return out; } Polygons polygons_covered_by_spacing(const float scaled_epsilon = 0.f) const { Polygons out; this->polygons_covered_by_spacing(out, scaled_epsilon); return out; } size_t items_count() const; /// Returns a flattened copy of this ExtrusionEntityCollection. That is, all of the items in its entities vector are not collections. /// You should be iterating over flatten().entities if you are interested in the underlying ExtrusionEntities (and don't care about hierarchy). /// \param preserve_ordering Flag to method that will flatten if and only if the underlying collection is sortable when True (default: False). ExtrusionEntityCollection flatten(bool preserve_ordering = false) const; double min_mm3_per_mm() const override; double total_volume() const override { double volume=0.; for (const auto& ent : entities) volume+=ent->total_volume(); return volume; } // Following methods shall never be called on an ExtrusionEntityCollection. Polyline as_polyline() const override { throw Slic3r::RuntimeError("Calling as_polyline() on a ExtrusionEntityCollection"); return Polyline(); }; void collect_polylines(Polylines &dst) const override { for (ExtrusionEntity* extrusion_entity : this->entities) extrusion_entity->collect_polylines(dst); } double length() const override { throw Slic3r::RuntimeError("Calling length() on a ExtrusionEntityCollection"); return 0.; } }; } // namespace Slic3r #endif