438 lines
11 KiB
C++
438 lines
11 KiB
C++
#include "Print.hpp"
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#include "BoundingBox.hpp"
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namespace Slic3r {
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template <class StepClass>
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bool
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PrintState<StepClass>::started(StepClass step) const
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{
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return this->_started.find(step) != this->_started.end();
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}
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template <class StepClass>
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bool
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PrintState<StepClass>::done(StepClass step) const
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{
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return this->_done.find(step) != this->_done.end();
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}
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template <class StepClass>
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void
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PrintState<StepClass>::set_started(StepClass step)
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{
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this->_started.insert(step);
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}
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template <class StepClass>
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void
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PrintState<StepClass>::set_done(StepClass step)
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{
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this->_done.insert(step);
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}
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template <class StepClass>
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void
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PrintState<StepClass>::invalidate(StepClass step)
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{
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this->_started.erase(step);
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this->_done.erase(step);
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}
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template <class StepClass>
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void
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PrintState<StepClass>::invalidate_all()
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{
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this->_started.clear();
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this->_done.clear();
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}
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template class PrintState<PrintStep>;
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template class PrintState<PrintObjectStep>;
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PrintRegion::PrintRegion(Print* print)
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: _print(print)
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{
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}
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PrintRegion::~PrintRegion()
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{
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}
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Print*
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PrintRegion::print()
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{
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return this->_print;
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}
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#ifdef SLIC3RXS
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REGISTER_CLASS(PrintRegion, "Print::Region");
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#endif
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PrintObject::PrintObject(Print* print, ModelObject* model_object, const BoundingBoxf3 &modobj_bbox)
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: _print(print),
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_model_object(model_object)
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{
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region_volumes.resize(this->_print->regions.size());
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// Compute the translation to be applied to our meshes so that we work with smaller coordinates
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{
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// Translate meshes so that our toolpath generation algorithms work with smaller
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// XY coordinates; this translation is an optimization and not strictly required.
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// A cloned mesh will be aligned to 0 before slicing in _slice_region() since we
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// don't assume it's already aligned and we don't alter the original position in model.
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// We store the XY translation so that we can place copies correctly in the output G-code
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// (copies are expressed in G-code coordinates and this translation is not publicly exposed).
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this->_copies_shift = Point(
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scale_(modobj_bbox.min.x), scale_(modobj_bbox.min.y));
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// TODO: $self->_trigger_copies;
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// Scale the object size and store it
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Pointf3 size = modobj_bbox.size();
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this->size = Point3(scale_(size.x), scale_(size.y), scale_(size.z));
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}
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}
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PrintObject::~PrintObject()
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{
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}
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Print*
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PrintObject::print()
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{
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return this->_print;
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}
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ModelObject*
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PrintObject::model_object()
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{
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return this->_model_object;
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}
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void
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PrintObject::add_region_volume(int region_id, int volume_id)
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{
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if (region_id >= region_volumes.size()) {
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region_volumes.resize(region_id + 1);
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}
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region_volumes[region_id].push_back(volume_id);
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}
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size_t
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PrintObject::layer_count()
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{
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return this->layers.size();
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}
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void
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PrintObject::clear_layers()
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{
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for (int i = this->layers.size()-1; i >= 0; --i)
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this->delete_layer(i);
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}
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Layer*
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PrintObject::get_layer(int idx)
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{
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return this->layers.at(idx);
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}
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Layer*
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PrintObject::add_layer(int id, coordf_t height, coordf_t print_z, coordf_t slice_z)
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{
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Layer* layer = new Layer(id, this, height, print_z, slice_z);
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layers.push_back(layer);
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return layer;
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}
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void
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PrintObject::delete_layer(int idx)
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{
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LayerPtrs::iterator i = this->layers.begin() + idx;
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delete *i;
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this->layers.erase(i);
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}
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size_t
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PrintObject::support_layer_count()
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{
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return this->support_layers.size();
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}
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void
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PrintObject::clear_support_layers()
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{
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for (int i = this->support_layers.size()-1; i >= 0; --i)
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this->delete_support_layer(i);
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}
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SupportLayer*
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PrintObject::get_support_layer(int idx)
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{
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return this->support_layers.at(idx);
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}
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SupportLayer*
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PrintObject::add_support_layer(int id, coordf_t height, coordf_t print_z,
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coordf_t slice_z)
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{
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SupportLayer* layer = new SupportLayer(id, this, height, print_z, slice_z);
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support_layers.push_back(layer);
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return layer;
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}
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void
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PrintObject::delete_support_layer(int idx)
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{
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SupportLayerPtrs::iterator i = this->support_layers.begin() + idx;
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delete *i;
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this->support_layers.erase(i);
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}
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bool
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PrintObject::invalidate_state_by_config_options(const std::vector<t_config_option_key> &opt_keys)
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{
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std::set<PrintObjectStep> steps;
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// this method only accepts PrintObjectConfig and PrintRegionConfig option keys
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for (std::vector<t_config_option_key>::const_iterator opt_key = opt_keys.begin(); opt_key != opt_keys.end(); ++opt_key) {
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if (*opt_key == "perimeters"
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|| *opt_key == "extra_perimeters"
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|| *opt_key == "gap_fill_speed"
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|| *opt_key == "overhangs"
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|| *opt_key == "perimeter_extrusion_width"
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|| *opt_key == "thin_walls"
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|| *opt_key == "external_perimeters_first") {
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steps.insert(posPerimeters);
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} else if (*opt_key == "resolution"
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|| *opt_key == "layer_height"
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|| *opt_key == "first_layer_height"
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|| *opt_key == "xy_size_compensation"
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|| *opt_key == "raft_layers") {
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steps.insert(posSlice);
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} else if (*opt_key == "support_material"
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|| *opt_key == "support_material_angle"
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|| *opt_key == "support_material_extruder"
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|| *opt_key == "support_material_extrusion_width"
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|| *opt_key == "support_material_interface_layers"
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|| *opt_key == "support_material_interface_extruder"
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|| *opt_key == "support_material_interface_spacing"
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|| *opt_key == "support_material_interface_speed"
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|| *opt_key == "support_material_pattern"
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|| *opt_key == "support_material_spacing"
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|| *opt_key == "support_material_threshold"
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|| *opt_key == "dont_support_bridges") {
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steps.insert(posSupportMaterial);
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} else if (*opt_key == "interface_shells"
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|| *opt_key == "infill_only_where_needed"
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|| *opt_key == "bottom_solid_layers"
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|| *opt_key == "top_solid_layers"
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|| *opt_key == "infill_extruder"
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|| *opt_key == "infill_extrusion_width") {
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steps.insert(posPrepareInfill);
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} else if (*opt_key == "fill_angle"
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|| *opt_key == "fill_pattern"
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|| *opt_key == "solid_fill_pattern"
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|| *opt_key == "infill_every_layers"
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|| *opt_key == "solid_infill_below_area"
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|| *opt_key == "solid_infill_every_layers"
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|| *opt_key == "top_infill_extrusion_width") {
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steps.insert(posInfill);
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} else if (*opt_key == "fill_density"
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|| *opt_key == "solid_infill_extrusion_width") {
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steps.insert(posPerimeters);
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steps.insert(posPrepareInfill);
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} else if (*opt_key == "external_perimeter_extrusion_width"
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|| *opt_key == "perimeter_extruder") {
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steps.insert(posPerimeters);
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steps.insert(posSupportMaterial);
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} else if (*opt_key == "bridge_flow_ratio") {
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steps.insert(posPerimeters);
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steps.insert(posInfill);
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} else {
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// for legacy, if we can't handle this option let's signal the caller to invalidate all steps
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return false;
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}
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}
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for (std::set<PrintObjectStep>::const_iterator step = steps.begin(); step != steps.end(); ++step)
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this->invalidate_step(*step);
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return true;
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}
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void
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PrintObject::invalidate_step(PrintObjectStep step)
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{
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this->state.invalidate(step);
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// propagate to dependent steps
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if (step == posPerimeters) {
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this->invalidate_step(posPrepareInfill);
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this->_print->invalidate_step(psSkirt);
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this->_print->invalidate_step(psBrim);
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} else if (step == posPrepareInfill) {
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this->invalidate_step(posInfill);
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} else if (step == posInfill) {
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this->_print->invalidate_step(psSkirt);
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this->_print->invalidate_step(psBrim);
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} else if (step == posSlice) {
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this->invalidate_step(posPerimeters);
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this->invalidate_step(posSupportMaterial);
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}
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}
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#ifdef SLIC3RXS
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REGISTER_CLASS(PrintObject, "Print::Object");
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#endif
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Print::Print()
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: total_used_filament(0),
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total_extruded_volume(0)
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{
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}
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Print::~Print()
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{
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clear_objects();
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clear_regions();
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}
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void
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Print::clear_objects()
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{
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for (int i = this->objects.size()-1; i >= 0; --i)
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this->delete_object(i);
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this->clear_regions();
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this->state.invalidate(psSkirt);
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this->state.invalidate(psBrim);
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}
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PrintObject*
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Print::get_object(size_t idx)
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{
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return objects.at(idx);
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}
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PrintObject*
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Print::add_object(ModelObject *model_object,
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const BoundingBoxf3 &modobj_bbox)
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{
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PrintObject *object = new PrintObject(this, model_object, modobj_bbox);
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objects.push_back(object);
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return object;
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}
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PrintObject*
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Print::set_new_object(size_t idx, ModelObject *model_object, const BoundingBoxf3 &modobj_bbox)
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{
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if (idx >= this->objects.size()) throw "bad idx";
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PrintObjectPtrs::iterator old_it = this->objects.begin() + idx;
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delete *old_it;
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PrintObject *object = new PrintObject(this, model_object, modobj_bbox);
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this->objects[idx] = object;
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return object;
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}
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void
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Print::delete_object(size_t idx)
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{
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PrintObjectPtrs::iterator i = this->objects.begin() + idx;
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delete *i;
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this->objects.erase(i);
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// TODO: purge unused regions
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this->state.invalidate(psSkirt);
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this->state.invalidate(psBrim);
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}
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void
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Print::clear_regions()
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{
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for (int i = this->regions.size()-1; i >= 0; --i)
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this->delete_region(i);
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}
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PrintRegion*
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Print::get_region(size_t idx)
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{
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return regions.at(idx);
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}
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PrintRegion*
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Print::add_region()
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{
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PrintRegion *region = new PrintRegion(this);
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regions.push_back(region);
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return region;
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}
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void
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Print::delete_region(size_t idx)
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{
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PrintRegionPtrs::iterator i = this->regions.begin() + idx;
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delete *i;
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this->regions.erase(i);
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}
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bool
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Print::invalidate_state_by_config_options(const std::vector<t_config_option_key> &opt_keys)
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{
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std::set<PrintStep> steps;
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// this method only accepts PrintConfig option keys
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for (std::vector<t_config_option_key>::const_iterator opt_key = opt_keys.begin(); opt_key != opt_keys.end(); ++opt_key) {
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if (*opt_key == "skirts"
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|| *opt_key == "skirt_height"
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|| *opt_key == "skirt_distance"
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|| *opt_key == "min_skirt_length") {
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steps.insert(psSkirt);
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} else if (*opt_key == "brim_width") {
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steps.insert(psBrim);
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} else {
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// for legacy, if we can't handle this option let's signal the caller to invalidate all steps
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return false;
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}
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}
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for (std::set<PrintStep>::const_iterator step = steps.begin(); step != steps.end(); ++step)
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this->invalidate_step(*step);
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return true;
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}
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void
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Print::invalidate_step(PrintStep step)
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{
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this->state.invalidate(step);
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// propagate to dependent steps
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if (step == psSkirt) {
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this->invalidate_step(psBrim);
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} else if (step == psInitExtruders) {
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for (PrintObjectPtrs::iterator object = this->objects.begin(); object != this->objects.end(); ++object) {
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(*object)->invalidate_step(posPerimeters);
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(*object)->invalidate_step(posSupportMaterial);
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}
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}
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}
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#ifdef SLIC3RXS
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REGISTER_CLASS(Print, "Print");
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#endif
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}
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