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# include "clipper/clipper_z.hpp"
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# include "Exception.hpp"
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# include "Print.hpp"
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# include "BoundingBox.hpp"
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# include "ClipperUtils.hpp"
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# include "Extruder.hpp"
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# include "Flow.hpp"
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# include "Geometry.hpp"
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# include "I18N.hpp"
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# include "ShortestPath.hpp"
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# include "SupportMaterial.hpp"
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# include "GCode.hpp"
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# include "GCode/WipeTower.hpp"
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# include "Utils.hpp"
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//#include "PrintExport.hpp"
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# include <float.h>
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# include <algorithm>
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# include <limits>
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# include <unordered_set>
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# include <boost/filesystem/path.hpp>
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# include <boost/format.hpp>
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# include <boost/log/trivial.hpp>
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// Mark string for localization and translate.
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# define L(s) Slic3r::I18N::translate(s)
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namespace Slic3r {
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template class PrintState < PrintStep , psCount > ;
template class PrintState < PrintObjectStep , posCount > ;
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void Print : : clear ( )
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{
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tbb : : mutex : : scoped_lock lock ( this - > state_mutex ( ) ) ;
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// The following call should stop background processing if it is running.
this - > invalidate_all_steps ( ) ;
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for ( PrintObject * object : m_objects )
delete object ;
m_objects . clear ( ) ;
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for ( PrintRegion * region : m_regions )
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delete region ;
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m_regions . clear ( ) ;
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m_model . clear_objects ( ) ;
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}
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PrintRegion * Print : : add_region ( )
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{
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m_regions . emplace_back ( new PrintRegion ( this ) ) ;
return m_regions . back ( ) ;
}
PrintRegion * Print : : add_region ( const PrintRegionConfig & config )
{
m_regions . emplace_back ( new PrintRegion ( this , config ) ) ;
return m_regions . back ( ) ;
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}
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// Called by Print::apply().
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// This method only accepts PrintConfig option keys.
bool Print : : invalidate_state_by_config_options ( const std : : vector < t_config_option_key > & opt_keys )
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{
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if ( opt_keys . empty ( ) )
return false ;
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// Cache the plenty of parameters, which influence the G-code generator only,
// or they are only notes not influencing the generated G-code.
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static std : : unordered_set < std : : string > steps_gcode = {
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" avoid_crossing_perimeters " ,
" bed_shape " ,
" bed_temperature " ,
" before_layer_gcode " ,
" between_objects_gcode " ,
" bridge_acceleration " ,
" bridge_fan_speed " ,
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" colorprint_heights " ,
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" cooling " ,
" default_acceleration " ,
" deretract_speed " ,
" disable_fan_first_layers " ,
" duplicate_distance " ,
" end_gcode " ,
" end_filament_gcode " ,
" extrusion_axis " ,
" extruder_clearance_height " ,
" extruder_clearance_radius " ,
" extruder_colour " ,
" extruder_offset " ,
" extrusion_multiplier " ,
" fan_always_on " ,
" fan_below_layer_time " ,
" filament_colour " ,
" filament_diameter " ,
" filament_density " ,
" filament_notes " ,
" filament_cost " ,
" first_layer_acceleration " ,
" first_layer_bed_temperature " ,
" first_layer_speed " ,
" gcode_comments " ,
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" gcode_label_objects " ,
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" infill_acceleration " ,
" layer_gcode " ,
" min_fan_speed " ,
" max_fan_speed " ,
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" max_print_height " ,
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" min_print_speed " ,
" max_print_speed " ,
" max_volumetric_speed " ,
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# ifdef HAS_PRESSURE_EQUALIZER
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" max_volumetric_extrusion_rate_slope_positive " ,
" max_volumetric_extrusion_rate_slope_negative " ,
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# endif /* HAS_PRESSURE_EQUALIZER */
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" notes " ,
" only_retract_when_crossing_perimeters " ,
" output_filename_format " ,
" perimeter_acceleration " ,
" post_process " ,
" printer_notes " ,
" retract_before_travel " ,
" retract_before_wipe " ,
" retract_layer_change " ,
" retract_length " ,
" retract_length_toolchange " ,
" retract_lift " ,
" retract_lift_above " ,
" retract_lift_below " ,
" retract_restart_extra " ,
" retract_restart_extra_toolchange " ,
" retract_speed " ,
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" single_extruder_multi_material_priming " ,
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" slowdown_below_layer_time " ,
" standby_temperature_delta " ,
" start_gcode " ,
" start_filament_gcode " ,
" toolchange_gcode " ,
" threads " ,
" travel_speed " ,
" use_firmware_retraction " ,
" use_relative_e_distances " ,
" use_volumetric_e " ,
" variable_layer_height " ,
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" wipe "
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} ;
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static std : : unordered_set < std : : string > steps_ignore ;
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std : : vector < PrintStep > steps ;
std : : vector < PrintObjectStep > osteps ;
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bool invalidated = false ;
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for ( const t_config_option_key & opt_key : opt_keys ) {
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if ( steps_gcode . find ( opt_key ) ! = steps_gcode . end ( ) ) {
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// These options only affect G-code export or they are just notes without influence on the generated G-code,
// so there is nothing to invalidate.
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steps . emplace_back ( psGCodeExport ) ;
} else if ( steps_ignore . find ( opt_key ) ! = steps_ignore . end ( ) ) {
// These steps have no influence on the G-code whatsoever. Just ignore them.
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} else if (
opt_key = = " skirts "
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| | opt_key = = " skirt_height "
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| | opt_key = = " draft_shield "
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| | opt_key = = " skirt_distance "
| | opt_key = = " min_skirt_length "
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| | opt_key = = " ooze_prevention "
| | opt_key = = " wipe_tower_x "
| | opt_key = = " wipe_tower_y "
| | opt_key = = " wipe_tower_rotation_angle " ) {
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steps . emplace_back ( psSkirt ) ;
} else if ( opt_key = = " brim_width " ) {
steps . emplace_back ( psBrim ) ;
steps . emplace_back ( psSkirt ) ;
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} else if (
opt_key = = " nozzle_diameter "
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| | opt_key = = " resolution "
// Spiral Vase forces different kind of slicing than the normal model:
// In Spiral Vase mode, holes are closed and only the largest area contour is kept at each layer.
// Therefore toggling the Spiral Vase on / off requires complete reslicing.
| | opt_key = = " spiral_vase " ) {
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osteps . emplace_back ( posSlice ) ;
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} else if (
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opt_key = = " complete_objects "
| | opt_key = = " filament_type "
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| | opt_key = = " filament_soluble "
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| | opt_key = = " first_layer_temperature "
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| | opt_key = = " filament_loading_speed "
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| | opt_key = = " filament_loading_speed_start "
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| | opt_key = = " filament_unloading_speed "
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| | opt_key = = " filament_unloading_speed_start "
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| | opt_key = = " filament_toolchange_delay "
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| | opt_key = = " filament_cooling_moves "
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| | opt_key = = " filament_minimal_purge_on_wipe_tower "
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| | opt_key = = " filament_cooling_initial_speed "
| | opt_key = = " filament_cooling_final_speed "
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| | opt_key = = " filament_ramming_parameters "
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| | opt_key = = " filament_max_volumetric_speed "
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| | opt_key = = " gcode_flavor "
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| | opt_key = = " high_current_on_filament_swap "
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| | opt_key = = " infill_first "
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| | opt_key = = " single_extruder_multi_material "
| | opt_key = = " temperature "
| | opt_key = = " wipe_tower "
| | opt_key = = " wipe_tower_width "
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| | opt_key = = " wipe_tower_bridging "
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| | opt_key = = " wipe_tower_no_sparse_layers "
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| | opt_key = = " wiping_volumes_matrix "
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| | opt_key = = " parking_pos_retraction "
| | opt_key = = " cooling_tube_retraction "
| | opt_key = = " cooling_tube_length "
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| | opt_key = = " extra_loading_move "
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| | opt_key = = " z_offset " ) {
steps . emplace_back ( psWipeTower ) ;
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steps . emplace_back ( psSkirt ) ;
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} else if (
opt_key = = " first_layer_extrusion_width "
| | opt_key = = " min_layer_height "
| | opt_key = = " max_layer_height " ) {
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osteps . emplace_back ( posPerimeters ) ;
osteps . emplace_back ( posInfill ) ;
osteps . emplace_back ( posSupportMaterial ) ;
steps . emplace_back ( psSkirt ) ;
steps . emplace_back ( psBrim ) ;
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} else {
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// for legacy, if we can't handle this option let's invalidate all steps
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//FIXME invalidate all steps of all objects as well?
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invalidated | = this - > invalidate_all_steps ( ) ;
// Continue with the other opt_keys to possibly invalidate any object specific steps.
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}
}
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sort_remove_duplicates ( steps ) ;
for ( PrintStep step : steps )
invalidated | = this - > invalidate_step ( step ) ;
sort_remove_duplicates ( osteps ) ;
for ( PrintObjectStep ostep : osteps )
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for ( PrintObject * object : m_objects )
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invalidated | = object - > invalidate_step ( ostep ) ;
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return invalidated ;
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}
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bool Print : : invalidate_step ( PrintStep step )
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{
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bool invalidated = Inherited : : invalidate_step ( step ) ;
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// Propagate to dependent steps.
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if ( step = = psSkirt )
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invalidated | = Inherited : : invalidate_step ( psBrim ) ;
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if ( step ! = psGCodeExport )
invalidated | = Inherited : : invalidate_step ( psGCodeExport ) ;
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return invalidated ;
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}
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// returns true if an object step is done on all objects
// and there's at least one object
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bool Print : : is_step_done ( PrintObjectStep step ) const
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{
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if ( m_objects . empty ( ) )
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return false ;
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tbb : : mutex : : scoped_lock lock ( this - > state_mutex ( ) ) ;
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for ( const PrintObject * object : m_objects )
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if ( ! object - > is_step_done_unguarded ( step ) )
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return false ;
return true ;
}
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// returns 0-based indices of used extruders
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std : : vector < unsigned int > Print : : object_extruders ( ) const
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{
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std : : vector < unsigned int > extruders ;
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extruders . reserve ( m_regions . size ( ) * 3 ) ;
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std : : vector < unsigned char > region_used ( m_regions . size ( ) , false ) ;
for ( const PrintObject * object : m_objects )
for ( const std : : vector < std : : pair < t_layer_height_range , int > > & volumes_per_region : object - > region_volumes )
if ( ! volumes_per_region . empty ( ) )
region_used [ & volumes_per_region - & object - > region_volumes . front ( ) ] = true ;
for ( size_t idx_region = 0 ; idx_region < m_regions . size ( ) ; + + idx_region )
if ( region_used [ idx_region ] )
m_regions [ idx_region ] - > collect_object_printing_extruders ( extruders ) ;
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sort_remove_duplicates ( extruders ) ;
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return extruders ;
}
// returns 0-based indices of used extruders
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std : : vector < unsigned int > Print : : support_material_extruders ( ) const
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{
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std : : vector < unsigned int > extruders ;
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bool support_uses_current_extruder = false ;
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auto num_extruders = ( unsigned int ) m_config . nozzle_diameter . size ( ) ;
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for ( PrintObject * object : m_objects ) {
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if ( object - > has_support_material ( ) ) {
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assert ( object - > config ( ) . support_material_extruder > = 0 ) ;
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if ( object - > config ( ) . support_material_extruder = = 0 )
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support_uses_current_extruder = true ;
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else {
unsigned int i = ( unsigned int ) object - > config ( ) . support_material_extruder - 1 ;
extruders . emplace_back ( ( i > = num_extruders ) ? 0 : i ) ;
}
assert ( object - > config ( ) . support_material_interface_extruder > = 0 ) ;
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if ( object - > config ( ) . support_material_interface_extruder = = 0 )
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support_uses_current_extruder = true ;
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else {
unsigned int i = ( unsigned int ) object - > config ( ) . support_material_interface_extruder - 1 ;
extruders . emplace_back ( ( i > = num_extruders ) ? 0 : i ) ;
}
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}
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}
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if ( support_uses_current_extruder )
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// Add all object extruders to the support extruders as it is not know which one will be used to print supports.
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append ( extruders , this - > object_extruders ( ) ) ;
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sort_remove_duplicates ( extruders ) ;
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return extruders ;
}
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// returns 0-based indices of used extruders
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std : : vector < unsigned int > Print : : extruders ( ) const
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{
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std : : vector < unsigned int > extruders = this - > object_extruders ( ) ;
append ( extruders , this - > support_material_extruders ( ) ) ;
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sort_remove_duplicates ( extruders ) ;
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return extruders ;
}
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unsigned int Print : : num_object_instances ( ) const
{
unsigned int instances = 0 ;
for ( const PrintObject * print_object : m_objects )
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instances + = ( unsigned int ) print_object - > instances ( ) . size ( ) ;
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return instances ;
}
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double Print : : max_allowed_layer_height ( ) const
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{
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double nozzle_diameter_max = 0. ;
for ( unsigned int extruder_id : this - > extruders ( ) )
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nozzle_diameter_max = std : : max ( nozzle_diameter_max , m_config . nozzle_diameter . get_at ( extruder_id ) ) ;
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return nozzle_diameter_max ;
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}
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// Add or remove support modifier ModelVolumes from model_object_dst to match the ModelVolumes of model_object_new
// in the exact order and with the same IDs.
// It is expected, that the model_object_dst already contains the non-support volumes of model_object_new in the correct order.
void Print : : model_volume_list_update_supports ( ModelObject & model_object_dst , const ModelObject & model_object_new )
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{
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typedef std : : pair < const ModelVolume * , bool > ModelVolumeWithStatus ;
std : : vector < ModelVolumeWithStatus > old_volumes ;
old_volumes . reserve ( model_object_dst . volumes . size ( ) ) ;
for ( const ModelVolume * model_volume : model_object_dst . volumes )
old_volumes . emplace_back ( ModelVolumeWithStatus ( model_volume , false ) ) ;
auto model_volume_lower = [ ] ( const ModelVolumeWithStatus & mv1 , const ModelVolumeWithStatus & mv2 ) { return mv1 . first - > id ( ) < mv2 . first - > id ( ) ; } ;
auto model_volume_equal = [ ] ( const ModelVolumeWithStatus & mv1 , const ModelVolumeWithStatus & mv2 ) { return mv1 . first - > id ( ) = = mv2 . first - > id ( ) ; } ;
std : : sort ( old_volumes . begin ( ) , old_volumes . end ( ) , model_volume_lower ) ;
model_object_dst . volumes . clear ( ) ;
model_object_dst . volumes . reserve ( model_object_new . volumes . size ( ) ) ;
for ( const ModelVolume * model_volume_src : model_object_new . volumes ) {
ModelVolumeWithStatus key ( model_volume_src , false ) ;
auto it = std : : lower_bound ( old_volumes . begin ( ) , old_volumes . end ( ) , key , model_volume_lower ) ;
if ( it ! = old_volumes . end ( ) & & model_volume_equal ( * it , key ) ) {
// The volume was found in the old list. Just copy it.
assert ( ! it - > second ) ; // not consumed yet
it - > second = true ;
ModelVolume * model_volume_dst = const_cast < ModelVolume * > ( it - > first ) ;
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// For support modifiers, the type may have been switched from blocker to enforcer and vice versa.
assert ( ( model_volume_dst - > is_support_modifier ( ) & & model_volume_src - > is_support_modifier ( ) ) | | model_volume_dst - > type ( ) = = model_volume_src - > type ( ) ) ;
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model_object_dst . volumes . emplace_back ( model_volume_dst ) ;
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if ( model_volume_dst - > is_support_modifier ( ) ) {
// For support modifiers, the type may have been switched from blocker to enforcer and vice versa.
model_volume_dst - > set_type ( model_volume_src - > type ( ) ) ;
model_volume_dst - > set_transformation ( model_volume_src - > get_transformation ( ) ) ;
}
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assert ( model_volume_dst - > get_matrix ( ) . isApprox ( model_volume_src - > get_matrix ( ) ) ) ;
} else {
// The volume was not found in the old list. Create a new copy.
assert ( model_volume_src - > is_support_modifier ( ) ) ;
model_object_dst . volumes . emplace_back ( new ModelVolume ( * model_volume_src ) ) ;
model_object_dst . volumes . back ( ) - > set_model_object ( & model_object_dst ) ;
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}
}
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// Release the non-consumed old volumes (those were deleted from the new list).
for ( ModelVolumeWithStatus & mv_with_status : old_volumes )
if ( ! mv_with_status . second )
delete mv_with_status . first ;
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}
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static inline void model_volume_list_copy_configs ( ModelObject & model_object_dst , const ModelObject & model_object_src , const ModelVolumeType type )
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{
size_t i_src , i_dst ;
for ( i_src = 0 , i_dst = 0 ; i_src < model_object_src . volumes . size ( ) & & i_dst < model_object_dst . volumes . size ( ) ; ) {
const ModelVolume & mv_src = * model_object_src . volumes [ i_src ] ;
ModelVolume & mv_dst = * model_object_dst . volumes [ i_dst ] ;
if ( mv_src . type ( ) ! = type ) {
+ + i_src ;
continue ;
}
if ( mv_dst . type ( ) ! = type ) {
+ + i_dst ;
continue ;
}
assert ( mv_src . id ( ) = = mv_dst . id ( ) ) ;
// Copy the ModelVolume data.
mv_dst . name = mv_src . name ;
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mv_dst . config . assign_config ( mv_src . config ) ;
if ( ! mv_dst . m_supported_facets . timestamp_matches ( mv_src . m_supported_facets ) )
mv_dst . m_supported_facets = mv_src . m_supported_facets ;
if ( ! mv_dst . m_seam_facets . timestamp_matches ( mv_src . m_seam_facets ) )
mv_dst . m_seam_facets = mv_src . m_seam_facets ;
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//FIXME what to do with the materials?
// mv_dst.m_material_id = mv_src.m_material_id;
+ + i_src ;
+ + i_dst ;
}
}
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static inline void layer_height_ranges_copy_configs ( t_layer_config_ranges & lr_dst , const t_layer_config_ranges & lr_src )
{
assert ( lr_dst . size ( ) = = lr_src . size ( ) ) ;
auto it_src = lr_src . cbegin ( ) ;
for ( auto & kvp_dst : lr_dst ) {
const auto & kvp_src = * it_src + + ;
assert ( std : : abs ( kvp_dst . first . first - kvp_src . first . first ) < = EPSILON ) ;
assert ( std : : abs ( kvp_dst . first . second - kvp_src . first . second ) < = EPSILON ) ;
// Layer heights are allowed do differ in case the layer height table is being overriden by the smooth profile.
// assert(std::abs(kvp_dst.second.option("layer_height")->getFloat() - kvp_src.second.option("layer_height")->getFloat()) <= EPSILON);
kvp_dst . second = kvp_src . second ;
}
}
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static inline bool transform3d_lower ( const Transform3d & lhs , const Transform3d & rhs )
{
typedef Transform3d : : Scalar T ;
const T * lv = lhs . data ( ) ;
const T * rv = rhs . data ( ) ;
for ( size_t i = 0 ; i < 16 ; + + i , + + lv , + + rv ) {
if ( * lv < * rv )
return true ;
else if ( * lv > * rv )
return false ;
}
return false ;
}
static inline bool transform3d_equal ( const Transform3d & lhs , const Transform3d & rhs )
{
typedef Transform3d : : Scalar T ;
const T * lv = lhs . data ( ) ;
const T * rv = rhs . data ( ) ;
for ( size_t i = 0 ; i < 16 ; + + i , + + lv , + + rv )
if ( * lv ! = * rv )
return false ;
return true ;
}
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struct PrintObjectTrafoAndInstances
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{
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Transform3d trafo ;
PrintInstances instances ;
bool operator < ( const PrintObjectTrafoAndInstances & rhs ) const { return transform3d_lower ( this - > trafo , rhs . trafo ) ; }
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} ;
// Generate a list of trafos and XY offsets for instances of a ModelObject
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static std : : vector < PrintObjectTrafoAndInstances > print_objects_from_model_object ( const ModelObject & model_object )
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{
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std : : set < PrintObjectTrafoAndInstances > trafos ;
PrintObjectTrafoAndInstances trafo ;
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for ( ModelInstance * model_instance : model_object . instances )
if ( model_instance - > is_printable ( ) ) {
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trafo . trafo = model_instance - > get_matrix ( ) ;
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auto shift = Point : : new_scale ( trafo . trafo . data ( ) [ 12 ] , trafo . trafo . data ( ) [ 13 ] ) ;
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// Reset the XY axes of the transformation.
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trafo . trafo . data ( ) [ 12 ] = 0 ;
trafo . trafo . data ( ) [ 13 ] = 0 ;
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// Search or insert a trafo.
auto it = trafos . emplace ( trafo ) . first ;
const_cast < PrintObjectTrafoAndInstances & > ( * it ) . instances . emplace_back ( PrintInstance { nullptr , model_instance , shift } ) ;
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}
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return std : : vector < PrintObjectTrafoAndInstances > ( trafos . begin ( ) , trafos . end ( ) ) ;
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}
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// Compare just the layer ranges and their layer heights, not the associated configs.
// Ignore the layer heights if check_layer_heights is false.
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static bool layer_height_ranges_equal ( const t_layer_config_ranges & lr1 , const t_layer_config_ranges & lr2 , bool check_layer_height )
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{
if ( lr1 . size ( ) ! = lr2 . size ( ) )
return false ;
auto it2 = lr2 . begin ( ) ;
for ( const auto & kvp1 : lr1 ) {
const auto & kvp2 = * it2 + + ;
if ( std : : abs ( kvp1 . first . first - kvp2 . first . first ) > EPSILON | |
std : : abs ( kvp1 . first . second - kvp2 . first . second ) > EPSILON | |
( check_layer_height & & std : : abs ( kvp1 . second . option ( " layer_height " ) - > getFloat ( ) - kvp2 . second . option ( " layer_height " ) - > getFloat ( ) ) > EPSILON ) )
return false ;
}
return true ;
}
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// Returns true if va == vb when all CustomGCode items that are not ToolChangeCode are ignored.
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static bool custom_per_printz_gcodes_tool_changes_differ ( const std : : vector < CustomGCode : : Item > & va , const std : : vector < CustomGCode : : Item > & vb )
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{
auto it_a = va . begin ( ) ;
auto it_b = vb . begin ( ) ;
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while ( it_a ! = va . end ( ) | | it_b ! = vb . end ( ) ) {
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if ( it_a ! = va . end ( ) & & it_a - > type ! = CustomGCode : : ToolChange ) {
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// Skip any CustomGCode items, which are not tool changes.
+ + it_a ;
continue ;
}
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if ( it_b ! = vb . end ( ) & & it_b - > type ! = CustomGCode : : ToolChange ) {
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// Skip any CustomGCode items, which are not tool changes.
+ + it_b ;
continue ;
}
if ( it_a = = va . end ( ) | | it_b = = vb . end ( ) )
// va or vb contains more Tool Changes than the other.
return true ;
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assert ( it_a - > type = = CustomGCode : : ToolChange ) ;
assert ( it_b - > type = = CustomGCode : : ToolChange ) ;
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if ( * it_a ! = * it_b )
// The two Tool Changes differ.
return true ;
+ + it_a ;
+ + it_b ;
}
// There is no change in custom Tool Changes.
return false ;
}
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// Collect diffs of configuration values at various containers,
// resolve the filament rectract overrides of extruder retract values.
void Print : : config_diffs (
const DynamicPrintConfig & new_full_config ,
t_config_option_keys & print_diff , t_config_option_keys & object_diff , t_config_option_keys & region_diff ,
t_config_option_keys & full_config_diff ,
DynamicPrintConfig & filament_overrides ) const
{
// Collect changes to print config, account for overrides of extruder retract values by filament presets.
{
const std : : vector < std : : string > & extruder_retract_keys = print_config_def . extruder_retract_keys ( ) ;
const std : : string filament_prefix = " filament_ " ;
for ( const t_config_option_key & opt_key : m_config . keys ( ) ) {
const ConfigOption * opt_old = m_config . option ( opt_key ) ;
assert ( opt_old ! = nullptr ) ;
const ConfigOption * opt_new = new_full_config . option ( opt_key ) ;
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// assert(opt_new != nullptr);
if ( opt_new = = nullptr )
//FIXME This may happen when executing some test cases.
continue ;
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const ConfigOption * opt_new_filament = std : : binary_search ( extruder_retract_keys . begin ( ) , extruder_retract_keys . end ( ) , opt_key ) ? new_full_config . option ( filament_prefix + opt_key ) : nullptr ;
if ( opt_new_filament ! = nullptr & & ! opt_new_filament - > is_nil ( ) ) {
// An extruder retract override is available at some of the filament presets.
if ( * opt_old ! = * opt_new | | opt_new - > overriden_by ( opt_new_filament ) ) {
auto opt_copy = opt_new - > clone ( ) ;
opt_copy - > apply_override ( opt_new_filament ) ;
if ( * opt_old = = * opt_copy )
delete opt_copy ;
else {
filament_overrides . set_key_value ( opt_key , opt_copy ) ;
print_diff . emplace_back ( opt_key ) ;
}
}
} else if ( * opt_new ! = * opt_old )
print_diff . emplace_back ( opt_key ) ;
}
}
// Collect changes to object and region configs.
object_diff = m_default_object_config . diff ( new_full_config ) ;
region_diff = m_default_region_config . diff ( new_full_config ) ;
// Prepare for storing of the full print config into new_full_config to be exported into the G-code and to be used by the PlaceholderParser.
for ( const t_config_option_key & opt_key : new_full_config . keys ( ) ) {
const ConfigOption * opt_old = m_full_print_config . option ( opt_key ) ;
const ConfigOption * opt_new = new_full_config . option ( opt_key ) ;
if ( opt_old = = nullptr | | * opt_new ! = * opt_old )
full_config_diff . emplace_back ( opt_key ) ;
}
}
Print : : ApplyStatus Print : : apply ( const Model & model , DynamicPrintConfig new_full_config )
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{
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# ifdef _DEBUG
check_model_ids_validity ( model ) ;
# endif /* _DEBUG */
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// Normalize the config.
new_full_config . option ( " print_settings_id " , true ) ;
new_full_config . option ( " filament_settings_id " , true ) ;
new_full_config . option ( " printer_settings_id " , true ) ;
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new_full_config . normalize_fdm ( ) ;
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// Find modified keys of the various configs. Resolve overrides extruder retract values by filament profiles.
t_config_option_keys print_diff , object_diff , region_diff , full_config_diff ;
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DynamicPrintConfig filament_overrides ;
this - > config_diffs ( new_full_config , print_diff , object_diff , region_diff , full_config_diff , filament_overrides ) ;
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// Do not use the ApplyStatus as we will use the max function when updating apply_status.
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unsigned int apply_status = APPLY_STATUS_UNCHANGED ;
auto update_apply_status = [ & apply_status ] ( bool invalidated )
{ apply_status = std : : max < unsigned int > ( apply_status , invalidated ? APPLY_STATUS_INVALIDATED : APPLY_STATUS_CHANGED ) ; } ;
if ( ! ( print_diff . empty ( ) & & object_diff . empty ( ) & & region_diff . empty ( ) ) )
update_apply_status ( false ) ;
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// Grab the lock for the Print / PrintObject milestones.
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tbb : : mutex : : scoped_lock lock ( this - > state_mutex ( ) ) ;
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// The following call may stop the background processing.
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if ( ! print_diff . empty ( ) )
update_apply_status ( this - > invalidate_state_by_config_options ( print_diff ) ) ;
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// Apply variables to placeholder parser. The placeholder parser is used by G-code export,
// which should be stopped if print_diff is not empty.
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size_t num_extruders = m_config . nozzle_diameter . size ( ) ;
bool num_extruders_changed = false ;
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if ( ! full_config_diff . empty ( ) ) {
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update_apply_status ( this - > invalidate_step ( psGCodeExport ) ) ;
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// Set the profile aliases for the PrintBase::output_filename()
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m_placeholder_parser . set ( " print_preset " , new_full_config . option ( " print_settings_id " ) - > clone ( ) ) ;
m_placeholder_parser . set ( " filament_preset " , new_full_config . option ( " filament_settings_id " ) - > clone ( ) ) ;
m_placeholder_parser . set ( " printer_preset " , new_full_config . option ( " printer_settings_id " ) - > clone ( ) ) ;
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// We want the filament overrides to be applied over their respective extruder parameters by the PlaceholderParser.
// see "Placeholders do not respect filament overrides." GH issue #3649
m_placeholder_parser . apply_config ( filament_overrides ) ;
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// It is also safe to change m_config now after this->invalidate_state_by_config_options() call.
m_config . apply_only ( new_full_config , print_diff , true ) ;
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//FIXME use move semantics once ConfigBase supports it.
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m_config . apply ( filament_overrides ) ;
// Handle changes to object config defaults
m_default_object_config . apply_only ( new_full_config , object_diff , true ) ;
// Handle changes to regions config defaults
m_default_region_config . apply_only ( new_full_config , region_diff , true ) ;
m_full_print_config = std : : move ( new_full_config ) ;
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if ( num_extruders ! = m_config . nozzle_diameter . size ( ) ) {
num_extruders = m_config . nozzle_diameter . size ( ) ;
num_extruders_changed = true ;
}
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}
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class LayerRanges
{
public :
LayerRanges ( ) { }
// Convert input config ranges into continuous non-overlapping sorted vector of intervals and their configs.
void assign ( const t_layer_config_ranges & in ) {
m_ranges . clear ( ) ;
m_ranges . reserve ( in . size ( ) ) ;
// Input ranges are sorted lexicographically. First range trims the other ranges.
coordf_t last_z = 0 ;
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for ( const std : : pair < const t_layer_height_range , ModelConfig > & range : in )
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if ( range . first . second > last_z ) {
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coordf_t min_z = std : : max ( range . first . first , 0. ) ;
if ( min_z > last_z + EPSILON ) {
m_ranges . emplace_back ( t_layer_height_range ( last_z , min_z ) , nullptr ) ;
last_z = min_z ;
}
if ( range . first . second > last_z + EPSILON ) {
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const DynamicPrintConfig * cfg = & range . second . get ( ) ;
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m_ranges . emplace_back ( t_layer_height_range ( last_z , range . first . second ) , cfg ) ;
last_z = range . first . second ;
}
}
if ( m_ranges . empty ( ) )
m_ranges . emplace_back ( t_layer_height_range ( 0 , DBL_MAX ) , nullptr ) ;
else if ( m_ranges . back ( ) . second = = nullptr )
m_ranges . back ( ) . first . second = DBL_MAX ;
else
m_ranges . emplace_back ( t_layer_height_range ( m_ranges . back ( ) . first . second , DBL_MAX ) , nullptr ) ;
}
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const DynamicPrintConfig * config ( const t_layer_height_range & range ) const {
auto it = std : : lower_bound ( m_ranges . begin ( ) , m_ranges . end ( ) , std : : make_pair < t_layer_height_range , const DynamicPrintConfig * > ( t_layer_height_range ( range . first - EPSILON , range . second - EPSILON ) , nullptr ) ) ;
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// #ys_FIXME_COLOR
// assert(it != m_ranges.end());
// assert(it == m_ranges.end() || std::abs(it->first.first - range.first ) < EPSILON);
// assert(it == m_ranges.end() || std::abs(it->first.second - range.second) < EPSILON);
if ( it = = m_ranges . end ( ) | |
std : : abs ( it - > first . first - range . first ) > EPSILON | |
std : : abs ( it - > first . second - range . second ) > EPSILON )
return nullptr ; // desired range doesn't found
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return ( it = = m_ranges . end ( ) ) ? nullptr : it - > second ;
}
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std : : vector < std : : pair < t_layer_height_range , const DynamicPrintConfig * > > : : const_iterator begin ( ) const { return m_ranges . cbegin ( ) ; }
std : : vector < std : : pair < t_layer_height_range , const DynamicPrintConfig * > > : : const_iterator end ( ) const { return m_ranges . cend ( ) ; }
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private :
std : : vector < std : : pair < t_layer_height_range , const DynamicPrintConfig * > > m_ranges ;
} ;
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struct ModelObjectStatus {
enum Status {
Unknown ,
Old ,
New ,
Moved ,
Deleted ,
} ;
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ModelObjectStatus ( ObjectID id , Status status = Unknown ) : id ( id ) , status ( status ) { }
ObjectID id ;
Status status ;
LayerRanges layer_ranges ;
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// Search by id.
bool operator < ( const ModelObjectStatus & rhs ) const { return id < rhs . id ; }
} ;
std : : set < ModelObjectStatus > model_object_status ;
// 1) Synchronize model objects.
if ( model . id ( ) ! = m_model . id ( ) ) {
// Kill everything, initialize from scratch.
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// Stop background processing.
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this - > call_cancel_callback ( ) ;
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update_apply_status ( this - > invalidate_all_steps ( ) ) ;
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for ( PrintObject * object : m_objects ) {
model_object_status . emplace ( object - > model_object ( ) - > id ( ) , ModelObjectStatus : : Deleted ) ;
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update_apply_status ( object - > invalidate_all_steps ( ) ) ;
delete object ;
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}
m_objects . clear ( ) ;
for ( PrintRegion * region : m_regions )
delete region ;
m_regions . clear ( ) ;
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m_model . assign_copy ( model ) ;
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for ( const ModelObject * model_object : m_model . objects )
model_object_status . emplace ( model_object - > id ( ) , ModelObjectStatus : : New ) ;
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} else {
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if ( m_model . custom_gcode_per_print_z ! = model . custom_gcode_per_print_z ) {
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update_apply_status ( num_extruders_changed | |
// Tool change G-codes are applied as color changes for a single extruder printer, no need to invalidate tool ordering.
//FIXME The tool ordering may be invalidated unnecessarily if the custom_gcode_per_print_z.mode is not applicable
// to the active print / model state, and then it is reset, so it is being applicable, but empty, thus the effect is the same.
( num_extruders > 1 & & custom_per_printz_gcodes_tool_changes_differ ( m_model . custom_gcode_per_print_z . gcodes , model . custom_gcode_per_print_z . gcodes ) ) ?
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// The Tool Ordering and the Wipe Tower are no more valid.
this - > invalidate_steps ( { psWipeTower , psGCodeExport } ) :
// There is no change in Tool Changes stored in custom_gcode_per_print_z, therefore there is no need to update Tool Ordering.
this - > invalidate_step ( psGCodeExport ) ) ;
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m_model . custom_gcode_per_print_z = model . custom_gcode_per_print_z ;
}
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if ( model_object_list_equal ( m_model , model ) ) {
// The object list did not change.
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for ( const ModelObject * model_object : m_model . objects )
model_object_status . emplace ( model_object - > id ( ) , ModelObjectStatus : : Old ) ;
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} else if ( model_object_list_extended ( m_model , model ) ) {
// Add new objects. Their volumes and configs will be synchronized later.
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update_apply_status ( this - > invalidate_step ( psGCodeExport ) ) ;
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for ( const ModelObject * model_object : m_model . objects )
model_object_status . emplace ( model_object - > id ( ) , ModelObjectStatus : : Old ) ;
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for ( size_t i = m_model . objects . size ( ) ; i < model . objects . size ( ) ; + + i ) {
model_object_status . emplace ( model . objects [ i ] - > id ( ) , ModelObjectStatus : : New ) ;
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m_model . objects . emplace_back ( ModelObject : : new_copy ( * model . objects [ i ] ) ) ;
m_model . objects . back ( ) - > set_model ( & m_model ) ;
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}
} else {
// Reorder the objects, add new objects.
// First stop background processing before shuffling or deleting the PrintObjects in the object list.
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this - > call_cancel_callback ( ) ;
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update_apply_status ( this - > invalidate_step ( psGCodeExport ) ) ;
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// Second create a new list of objects.
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std : : vector < ModelObject * > model_objects_old ( std : : move ( m_model . objects ) ) ;
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m_model . objects . clear ( ) ;
m_model . objects . reserve ( model . objects . size ( ) ) ;
auto by_id_lower = [ ] ( const ModelObject * lhs , const ModelObject * rhs ) { return lhs - > id ( ) < rhs - > id ( ) ; } ;
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std : : sort ( model_objects_old . begin ( ) , model_objects_old . end ( ) , by_id_lower ) ;
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for ( const ModelObject * mobj : model . objects ) {
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auto it = std : : lower_bound ( model_objects_old . begin ( ) , model_objects_old . end ( ) , mobj , by_id_lower ) ;
if ( it = = model_objects_old . end ( ) | | ( * it ) - > id ( ) ! = mobj - > id ( ) ) {
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// New ModelObject added.
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m_model . objects . emplace_back ( ModelObject : : new_copy ( * mobj ) ) ;
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m_model . objects . back ( ) - > set_model ( & m_model ) ;
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model_object_status . emplace ( mobj - > id ( ) , ModelObjectStatus : : New ) ;
} else {
// Existing ModelObject re-added (possibly moved in the list).
m_model . objects . emplace_back ( * it ) ;
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model_object_status . emplace ( mobj - > id ( ) , ModelObjectStatus : : Moved ) ;
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}
}
bool deleted_any = false ;
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for ( ModelObject * & model_object : model_objects_old ) {
if ( model_object_status . find ( ModelObjectStatus ( model_object - > id ( ) ) ) = = model_object_status . end ( ) ) {
model_object_status . emplace ( model_object - > id ( ) , ModelObjectStatus : : Deleted ) ;
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deleted_any = true ;
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} else
// Do not delete this ModelObject instance.
model_object = nullptr ;
}
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if ( deleted_any ) {
// Delete PrintObjects of the deleted ModelObjects.
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std : : vector < PrintObject * > print_objects_old = std : : move ( m_objects ) ;
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m_objects . clear ( ) ;
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m_objects . reserve ( print_objects_old . size ( ) ) ;
for ( PrintObject * print_object : print_objects_old ) {
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auto it_status = model_object_status . find ( ModelObjectStatus ( print_object - > model_object ( ) - > id ( ) ) ) ;
assert ( it_status ! = model_object_status . end ( ) ) ;
if ( it_status - > status = = ModelObjectStatus : : Deleted ) {
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update_apply_status ( print_object - > invalidate_all_steps ( ) ) ;
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delete print_object ;
} else
m_objects . emplace_back ( print_object ) ;
}
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for ( ModelObject * model_object : model_objects_old )
delete model_object ;
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}
}
}
// 2) Map print objects including their transformation matrices.
struct PrintObjectStatus {
enum Status {
Unknown ,
Deleted ,
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Reused ,
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New
} ;
PrintObjectStatus ( PrintObject * print_object , Status status = Unknown ) :
id ( print_object - > model_object ( ) - > id ( ) ) ,
print_object ( print_object ) ,
trafo ( print_object - > trafo ( ) ) ,
status ( status ) { }
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PrintObjectStatus ( ObjectID id ) : id ( id ) , print_object ( nullptr ) , trafo ( Transform3d : : Identity ( ) ) , status ( Unknown ) { }
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// ID of the ModelObject & PrintObject
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ObjectID id ;
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// Pointer to the old PrintObject
PrintObject * print_object ;
// Trafo generated with model_object->world_matrix(true)
Transform3d trafo ;
Status status ;
// Search by id.
bool operator < ( const PrintObjectStatus & rhs ) const { return id < rhs . id ; }
} ;
std : : multiset < PrintObjectStatus > print_object_status ;
for ( PrintObject * print_object : m_objects )
print_object_status . emplace ( PrintObjectStatus ( print_object ) ) ;
// 3) Synchronize ModelObjects & PrintObjects.
for ( size_t idx_model_object = 0 ; idx_model_object < model . objects . size ( ) ; + + idx_model_object ) {
ModelObject & model_object = * m_model . objects [ idx_model_object ] ;
auto it_status = model_object_status . find ( ModelObjectStatus ( model_object . id ( ) ) ) ;
assert ( it_status ! = model_object_status . end ( ) ) ;
assert ( it_status - > status ! = ModelObjectStatus : : Deleted ) ;
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const ModelObject & model_object_new = * model . objects [ idx_model_object ] ;
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const_cast < ModelObjectStatus & > ( * it_status ) . layer_ranges . assign ( model_object_new . layer_config_ranges ) ;
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if ( it_status - > status = = ModelObjectStatus : : New )
// PrintObject instances will be added in the next loop.
continue ;
// Update the ModelObject instance, possibly invalidate the linked PrintObjects.
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assert ( it_status - > status = = ModelObjectStatus : : Old | | it_status - > status = = ModelObjectStatus : : Moved ) ;
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// Check whether a model part volume was added or removed, their transformations or order changed.
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// Only volume IDs, volume types, transformation matrices and their order are checked, configuration and other parameters are NOT checked.
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bool model_parts_differ = model_volume_list_changed ( model_object , model_object_new , ModelVolumeType : : MODEL_PART ) ;
bool modifiers_differ = model_volume_list_changed ( model_object , model_object_new , ModelVolumeType : : PARAMETER_MODIFIER ) ;
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bool supports_differ = model_volume_list_changed ( model_object , model_object_new , ModelVolumeType : : SUPPORT_BLOCKER ) | |
model_volume_list_changed ( model_object , model_object_new , ModelVolumeType : : SUPPORT_ENFORCER ) ;
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if ( model_parts_differ | | modifiers_differ | |
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model_object . origin_translation ! = model_object_new . origin_translation | |
! model_object . layer_height_profile . timestamp_matches ( model_object_new . layer_height_profile ) | |
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! layer_height_ranges_equal ( model_object . layer_config_ranges , model_object_new . layer_config_ranges , model_object_new . layer_height_profile . empty ( ) ) ) {
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// The very first step (the slicing step) is invalidated. One may freely remove all associated PrintObjects.
auto range = print_object_status . equal_range ( PrintObjectStatus ( model_object . id ( ) ) ) ;
for ( auto it = range . first ; it ! = range . second ; + + it ) {
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update_apply_status ( it - > print_object - > invalidate_all_steps ( ) ) ;
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const_cast < PrintObjectStatus & > ( * it ) . status = PrintObjectStatus : : Deleted ;
}
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// Copy content of the ModelObject including its ID, do not change the parent.
model_object . assign_copy ( model_object_new ) ;
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} else if ( supports_differ | | model_custom_supports_data_changed ( model_object , model_object_new ) ) {
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// First stop background processing before shuffling or deleting the ModelVolumes in the ModelObject's list.
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if ( supports_differ ) {
this - > call_cancel_callback ( ) ;
update_apply_status ( false ) ;
}
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// Invalidate just the supports step.
auto range = print_object_status . equal_range ( PrintObjectStatus ( model_object . id ( ) ) ) ;
for ( auto it = range . first ; it ! = range . second ; + + it )
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update_apply_status ( it - > print_object - > invalidate_step ( posSupportMaterial ) ) ;
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if ( supports_differ ) {
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// Copy just the support volumes.
model_volume_list_update_supports ( model_object , model_object_new ) ;
}
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} else if ( model_custom_seam_data_changed ( model_object , model_object_new ) ) {
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update_apply_status ( this - > invalidate_step ( psGCodeExport ) ) ;
}
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if ( ! model_parts_differ & & ! modifiers_differ ) {
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// Synchronize Object's config.
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bool object_config_changed = ! model_object . config . timestamp_matches ( model_object_new . config ) ;
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if ( object_config_changed )
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model_object . config . assign_config ( model_object_new . config ) ;
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if ( ! object_diff . empty ( ) | | object_config_changed | | num_extruders_changed ) {
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PrintObjectConfig new_config = PrintObject : : object_config_from_model_object ( m_default_object_config , model_object , num_extruders ) ;
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auto range = print_object_status . equal_range ( PrintObjectStatus ( model_object . id ( ) ) ) ;
for ( auto it = range . first ; it ! = range . second ; + + it ) {
t_config_option_keys diff = it - > print_object - > config ( ) . diff ( new_config ) ;
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if ( ! diff . empty ( ) ) {
update_apply_status ( it - > print_object - > invalidate_state_by_config_options ( diff ) ) ;
it - > print_object - > config_apply_only ( new_config , diff , true ) ;
}
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}
}
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// Synchronize (just copy) the remaining data of ModelVolumes (name, config, custom supports data).
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//FIXME What to do with m_material_id?
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model_volume_list_copy_configs ( model_object /* dst */ , model_object_new /* src */ , ModelVolumeType : : MODEL_PART ) ;
model_volume_list_copy_configs ( model_object /* dst */ , model_object_new /* src */ , ModelVolumeType : : PARAMETER_MODIFIER ) ;
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layer_height_ranges_copy_configs ( model_object . layer_config_ranges /* dst */ , model_object_new . layer_config_ranges /* src */ ) ;
// Copy the ModelObject name, input_file and instances. The instances will be compared against PrintObject instances in the next step.
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model_object . name = model_object_new . name ;
model_object . input_file = model_object_new . input_file ;
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// Only refresh ModelInstances if there is any change.
if ( model_object . instances . size ( ) ! = model_object_new . instances . size ( ) | |
! std : : equal ( model_object . instances . begin ( ) , model_object . instances . end ( ) , model_object_new . instances . begin ( ) , [ ] ( auto l , auto r ) { return l - > id ( ) = = r - > id ( ) ; } ) ) {
// G-code generator accesses model_object.instances to generate sequential print ordering matching the Plater object list.
update_apply_status ( this - > invalidate_step ( psGCodeExport ) ) ;
model_object . clear_instances ( ) ;
model_object . instances . reserve ( model_object_new . instances . size ( ) ) ;
for ( const ModelInstance * model_instance : model_object_new . instances ) {
model_object . instances . emplace_back ( new ModelInstance ( * model_instance ) ) ;
model_object . instances . back ( ) - > set_model_object ( & model_object ) ;
}
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} else if ( ! std : : equal ( model_object . instances . begin ( ) , model_object . instances . end ( ) , model_object_new . instances . begin ( ) ,
[ ] ( auto l , auto r ) { return l - > print_volume_state = = r - > print_volume_state & & l - > printable = = r - > printable & &
l - > get_transformation ( ) . get_matrix ( ) . isApprox ( r - > get_transformation ( ) . get_matrix ( ) ) ; } ) ) {
// If some of the instances changed, the bounding box of the updated ModelObject is likely no more valid.
// This is safe as the ModelObject's bounding box is only accessed from this function, which is called from the main thread only.
model_object . invalidate_bounding_box ( ) ;
// Synchronize the content of instances.
auto new_instance = model_object_new . instances . begin ( ) ;
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for ( auto old_instance = model_object . instances . begin ( ) ; old_instance ! = model_object . instances . end ( ) ; + + old_instance , + + new_instance ) {
( * old_instance ) - > set_transformation ( ( * new_instance ) - > get_transformation ( ) ) ;
( * old_instance ) - > print_volume_state = ( * new_instance ) - > print_volume_state ;
( * old_instance ) - > printable = ( * new_instance ) - > printable ;
}
}
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}
}
// 4) Generate PrintObjects from ModelObjects and their instances.
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{
std : : vector < PrintObject * > print_objects_new ;
print_objects_new . reserve ( std : : max ( m_objects . size ( ) , m_model . objects . size ( ) ) ) ;
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bool new_objects = false ;
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// Walk over all new model objects and check, whether there are matching PrintObjects.
for ( ModelObject * model_object : m_model . objects ) {
auto range = print_object_status . equal_range ( PrintObjectStatus ( model_object - > id ( ) ) ) ;
std : : vector < const PrintObjectStatus * > old ;
if ( range . first ! = range . second ) {
old . reserve ( print_object_status . count ( PrintObjectStatus ( model_object - > id ( ) ) ) ) ;
for ( auto it = range . first ; it ! = range . second ; + + it )
if ( it - > status ! = PrintObjectStatus : : Deleted )
old . emplace_back ( & ( * it ) ) ;
}
// Generate a list of trafos and XY offsets for instances of a ModelObject
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// Producing the config for PrintObject on demand, caching it at print_object_last.
const PrintObject * print_object_last = nullptr ;
auto print_object_apply_config = [ this , & print_object_last , model_object , num_extruders ] ( PrintObject * print_object ) {
print_object - > config_apply ( print_object_last ?
print_object_last - > config ( ) :
PrintObject : : object_config_from_model_object ( m_default_object_config , * model_object , num_extruders ) ) ;
print_object_last = print_object ;
} ;
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std : : vector < PrintObjectTrafoAndInstances > new_print_instances = print_objects_from_model_object ( * model_object ) ;
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if ( old . empty ( ) ) {
// Simple case, just generate new instances.
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for ( PrintObjectTrafoAndInstances & print_instances : new_print_instances ) {
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PrintObject * print_object = new PrintObject ( this , model_object , print_instances . trafo , std : : move ( print_instances . instances ) ) ;
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print_object_apply_config ( print_object ) ;
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print_objects_new . emplace_back ( print_object ) ;
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// print_object_status.emplace(PrintObjectStatus(print_object, PrintObjectStatus::New));
new_objects = true ;
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}
continue ;
}
// Complex case, try to merge the two lists.
// Sort the old lexicographically by their trafos.
std : : sort ( old . begin ( ) , old . end ( ) , [ ] ( const PrintObjectStatus * lhs , const PrintObjectStatus * rhs ) { return transform3d_lower ( lhs - > trafo , rhs - > trafo ) ; } ) ;
// Merge the old / new lists.
auto it_old = old . begin ( ) ;
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for ( PrintObjectTrafoAndInstances & new_instances : new_print_instances ) {
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for ( ; it_old ! = old . end ( ) & & transform3d_lower ( ( * it_old ) - > trafo , new_instances . trafo ) ; + + it_old ) ;
if ( it_old = = old . end ( ) | | ! transform3d_equal ( ( * it_old ) - > trafo , new_instances . trafo ) ) {
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// This is a new instance (or a set of instances with the same trafo). Just add it.
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PrintObject * print_object = new PrintObject ( this , model_object , new_instances . trafo , std : : move ( new_instances . instances ) ) ;
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print_object_apply_config ( print_object ) ;
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print_objects_new . emplace_back ( print_object ) ;
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// print_object_status.emplace(PrintObjectStatus(print_object, PrintObjectStatus::New));
new_objects = true ;
if ( it_old ! = old . end ( ) )
const_cast < PrintObjectStatus * > ( * it_old ) - > status = PrintObjectStatus : : Deleted ;
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} else {
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// The PrintObject already exists and the copies differ.
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PrintBase : : ApplyStatus status = ( * it_old ) - > print_object - > set_instances ( std : : move ( new_instances . instances ) ) ;
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if ( status ! = PrintBase : : APPLY_STATUS_UNCHANGED )
update_apply_status ( status = = PrintBase : : APPLY_STATUS_INVALIDATED ) ;
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print_objects_new . emplace_back ( ( * it_old ) - > print_object ) ;
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const_cast < PrintObjectStatus * > ( * it_old ) - > status = PrintObjectStatus : : Reused ;
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}
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}
}
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if ( m_objects ! = print_objects_new ) {
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this - > call_cancel_callback ( ) ;
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update_apply_status ( this - > invalidate_all_steps ( ) ) ;
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m_objects = print_objects_new ;
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// Delete the PrintObjects marked as Unknown or Deleted.
bool deleted_objects = false ;
for ( auto & pos : print_object_status )
if ( pos . status = = PrintObjectStatus : : Unknown | | pos . status = = PrintObjectStatus : : Deleted ) {
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update_apply_status ( pos . print_object - > invalidate_all_steps ( ) ) ;
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delete pos . print_object ;
deleted_objects = true ;
}
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if ( new_objects | | deleted_objects )
update_apply_status ( this - > invalidate_steps ( { psSkirt , psBrim , psWipeTower , psGCodeExport } ) ) ;
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if ( new_objects )
update_apply_status ( false ) ;
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}
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print_object_status . clear ( ) ;
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}
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// 5) Synchronize configs of ModelVolumes, synchronize AMF / 3MF materials (and their configs), refresh PrintRegions.
// Update reference counts of regions from the remaining PrintObjects and their volumes.
// Regions with zero references could and should be reused.
for ( PrintRegion * region : m_regions )
region - > m_refcnt = 0 ;
for ( PrintObject * print_object : m_objects ) {
int idx_region = 0 ;
for ( const auto & volumes : print_object - > region_volumes ) {
if ( ! volumes . empty ( ) )
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+ + m_regions [ idx_region ] - > m_refcnt ;
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+ + idx_region ;
}
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}
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// All regions now have distinct settings.
// Check whether applying the new region config defaults we'd get different regions.
for ( size_t region_id = 0 ; region_id < m_regions . size ( ) ; + + region_id ) {
PrintRegion & region = * m_regions [ region_id ] ;
PrintRegionConfig this_region_config ;
bool this_region_config_set = false ;
for ( PrintObject * print_object : m_objects ) {
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const LayerRanges * layer_ranges ;
{
auto it_status = model_object_status . find ( ModelObjectStatus ( print_object - > model_object ( ) - > id ( ) ) ) ;
assert ( it_status ! = model_object_status . end ( ) ) ;
assert ( it_status - > status ! = ModelObjectStatus : : Deleted ) ;
layer_ranges = & it_status - > layer_ranges ;
}
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if ( region_id < print_object - > region_volumes . size ( ) ) {
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for ( const std : : pair < t_layer_height_range , int > & volume_and_range : print_object - > region_volumes [ region_id ] ) {
const ModelVolume & volume = * print_object - > model_object ( ) - > volumes [ volume_and_range . second ] ;
const DynamicPrintConfig * layer_range_config = layer_ranges - > config ( volume_and_range . first ) ;
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if ( this_region_config_set ) {
// If the new config for this volume differs from the other
// volume configs currently associated to this region, it means
// the region subdivision does not make sense anymore.
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if ( ! this_region_config . equals ( PrintObject : : region_config_from_model_volume ( m_default_region_config , layer_range_config , volume , num_extruders ) ) )
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// Regions were split. Reset this print_object.
goto print_object_end ;
} else {
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this_region_config = PrintObject : : region_config_from_model_volume ( m_default_region_config , layer_range_config , volume , num_extruders ) ;
for ( size_t i = 0 ; i < region_id ; + + i ) {
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const PrintRegion & region_other = * m_regions [ i ] ;
if ( region_other . m_refcnt ! = 0 & & region_other . config ( ) . equals ( this_region_config ) )
// Regions were merged. Reset this print_object.
goto print_object_end ;
}
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this_region_config_set = true ;
}
}
}
continue ;
print_object_end :
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update_apply_status ( print_object - > invalidate_all_steps ( ) ) ;
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// Decrease the references to regions from this volume.
int ireg = 0 ;
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for ( const std : : vector < std : : pair < t_layer_height_range , int > > & volumes : print_object - > region_volumes ) {
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if ( ! volumes . empty ( ) )
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- - m_regions [ ireg ] - > m_refcnt ;
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+ + ireg ;
}
print_object - > region_volumes . clear ( ) ;
}
if ( this_region_config_set ) {
t_config_option_keys diff = region . config ( ) . diff ( this_region_config ) ;
if ( ! diff . empty ( ) ) {
region . config_apply_only ( this_region_config , diff , false ) ;
for ( PrintObject * print_object : m_objects )
if ( region_id < print_object - > region_volumes . size ( ) & & ! print_object - > region_volumes [ region_id ] . empty ( ) )
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update_apply_status ( print_object - > invalidate_state_by_config_options ( diff ) ) ;
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}
}
}
2018-10-17 09:12:38 +00:00
2018-10-18 12:36:46 +00:00
// Possibly add new regions for the newly added or resetted PrintObjects.
for ( size_t idx_print_object = 0 ; idx_print_object < m_objects . size ( ) ; + + idx_print_object ) {
PrintObject & print_object0 = * m_objects [ idx_print_object ] ;
const ModelObject & model_object = * print_object0 . model_object ( ) ;
2019-06-20 14:15:09 +00:00
const LayerRanges * layer_ranges ;
{
auto it_status = model_object_status . find ( ModelObjectStatus ( model_object . id ( ) ) ) ;
assert ( it_status ! = model_object_status . end ( ) ) ;
assert ( it_status - > status ! = ModelObjectStatus : : Deleted ) ;
layer_ranges = & it_status - > layer_ranges ;
}
std : : vector < int > regions_in_object ;
regions_in_object . reserve ( 64 ) ;
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for ( size_t i = idx_print_object ; i < m_objects . size ( ) & & m_objects [ i ] - > model_object ( ) = = & model_object ; + + i ) {
PrintObject & print_object = * m_objects [ i ] ;
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bool fresh = print_object . region_volumes . empty ( ) ;
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unsigned int volume_id = 0 ;
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unsigned int idx_region_in_object = 0 ;
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for ( const ModelVolume * volume : model_object . volumes ) {
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if ( ! volume - > is_model_part ( ) & & ! volume - > is_modifier ( ) ) {
+ + volume_id ;
continue ;
}
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// Filter the layer ranges, so they do not overlap and they contain at least a single layer.
// Now insert a volume with a layer range to its own region.
for ( auto it_range = layer_ranges - > begin ( ) ; it_range ! = layer_ranges - > end ( ) ; + + it_range ) {
int region_id = - 1 ;
if ( & print_object = = & print_object0 ) {
// Get the config applied to this volume.
PrintRegionConfig config = PrintObject : : region_config_from_model_volume ( m_default_region_config , it_range - > second , * volume , num_extruders ) ;
// Find an existing print region with the same config.
int idx_empty_slot = - 1 ;
for ( int i = 0 ; i < ( int ) m_regions . size ( ) ; + + i ) {
if ( m_regions [ i ] - > m_refcnt = = 0 ) {
if ( idx_empty_slot = = - 1 )
idx_empty_slot = i ;
} else if ( config . equals ( m_regions [ i ] - > config ( ) ) ) {
region_id = i ;
break ;
}
}
// If no region exists with the same config, create a new one.
if ( region_id = = - 1 ) {
if ( idx_empty_slot = = - 1 ) {
region_id = ( int ) m_regions . size ( ) ;
this - > add_region ( config ) ;
} else {
region_id = idx_empty_slot ;
m_regions [ region_id ] - > set_config ( std : : move ( config ) ) ;
}
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}
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regions_in_object . emplace_back ( region_id ) ;
} else
region_id = regions_in_object [ idx_region_in_object + + ] ;
// Assign volume to a region.
if ( fresh ) {
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if ( ( size_t ) region_id > = print_object . region_volumes . size ( ) | | print_object . region_volumes [ region_id ] . empty ( ) )
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+ + m_regions [ region_id ] - > m_refcnt ;
print_object . add_region_volume ( region_id , volume_id , it_range - > first ) ;
}
}
+ + volume_id ;
}
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}
}
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// Update SlicingParameters for each object where the SlicingParameters is not valid.
// If it is not valid, then it is ensured that PrintObject.m_slicing_params is not in use
// (posSlicing and posSupportMaterial was invalidated).
for ( PrintObject * object : m_objects )
object - > update_slicing_parameters ( ) ;
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# ifdef _DEBUG
check_model_ids_equal ( m_model , model ) ;
# endif /* _DEBUG */
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return static_cast < ApplyStatus > ( apply_status ) ;
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}
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bool Print : : has_infinite_skirt ( ) const
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{
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return ( m_config . draft_shield & & m_config . skirts > 0 ) | | ( m_config . ooze_prevention & & this - > extruders ( ) . size ( ) > 1 ) ;
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}
bool Print : : has_skirt ( ) const
{
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return ( m_config . skirt_height > 0 & & m_config . skirts > 0 ) | | this - > has_infinite_skirt ( ) ;
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}
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static inline bool sequential_print_horizontal_clearance_valid ( const Print & print )
{
Polygons convex_hulls_other ;
std : : map < ObjectID , Polygon > map_model_object_to_convex_hull ;
for ( const PrintObject * print_object : print . objects ( ) ) {
assert ( ! print_object - > model_object ( ) - > instances . empty ( ) ) ;
assert ( ! print_object - > instances ( ) . empty ( ) ) ;
ObjectID model_object_id = print_object - > model_object ( ) - > id ( ) ;
auto it_convex_hull = map_model_object_to_convex_hull . find ( model_object_id ) ;
// Get convex hull of all printable volumes assigned to this print object.
ModelInstance * model_instance0 = print_object - > model_object ( ) - > instances . front ( ) ;
if ( it_convex_hull = = map_model_object_to_convex_hull . end ( ) ) {
// Calculate the convex hull of a printable object.
// Grow convex hull with the clearance margin.
// FIXME: Arrangement has different parameters for offsetting (jtMiter, limit 2)
// which causes that the warning will be showed after arrangement with the
// appropriate object distance. Even if I set this to jtMiter the warning still shows up.
it_convex_hull = map_model_object_to_convex_hull . emplace_hint ( it_convex_hull , model_object_id ,
offset ( print_object - > model_object ( ) - > convex_hull_2d (
Geometry : : assemble_transform ( Vec3d : : Zero ( ) , model_instance0 - > get_rotation ( ) , model_instance0 - > get_scaling_factor ( ) , model_instance0 - > get_mirror ( ) ) ) ,
// Shrink the extruder_clearance_radius a tiny bit, so that if the object arrangement algorithm placed the objects
// exactly by satisfying the extruder_clearance_radius, this test will not trigger collision.
float ( scale_ ( 0.5 * print . config ( ) . extruder_clearance_radius . value - EPSILON ) ) ,
jtRound , float ( scale_ ( 0.1 ) ) ) . front ( ) ) ;
}
// Make a copy, so it may be rotated for instances.
Polygon convex_hull0 = it_convex_hull - > second ;
double z_diff = Geometry : : rotation_diff_z ( model_instance0 - > get_rotation ( ) , print_object - > instances ( ) . front ( ) . model_instance - > get_rotation ( ) ) ;
if ( std : : abs ( z_diff ) > EPSILON )
convex_hull0 . rotate ( z_diff ) ;
// Now we check that no instance of convex_hull intersects any of the previously checked object instances.
for ( const PrintInstance & instance : print_object - > instances ( ) ) {
Polygon convex_hull = convex_hull0 ;
// instance.shift is a position of a centered object, while model object may not be centered.
// Conver the shift from the PrintObject's coordinates into ModelObject's coordinates by removing the centering offset.
convex_hull . translate ( instance . shift - print_object - > center_offset ( ) ) ;
if ( ! intersection ( convex_hulls_other , convex_hull ) . empty ( ) )
return false ;
polygons_append ( convex_hulls_other , convex_hull ) ;
}
}
return true ;
}
static inline bool sequential_print_vertical_clearance_valid ( const Print & print )
{
std : : vector < const PrintInstance * > print_instances_ordered = sort_object_instances_by_model_order ( print ) ;
// Ignore the last instance printed.
print_instances_ordered . pop_back ( ) ;
// Find the other highest instance.
auto it = std : : max_element ( print_instances_ordered . begin ( ) , print_instances_ordered . end ( ) , [ ] ( auto l , auto r ) {
return l - > print_object - > height ( ) < r - > print_object - > height ( ) ;
} ) ;
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return it = = print_instances_ordered . end ( ) | | ( * it ) - > print_object - > height ( ) < = scale_ ( print . config ( ) . extruder_clearance_height . value ) ;
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}
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// Precondition: Print::validate() requires the Print::apply() to be called its invocation.
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std : : string Print : : validate ( ) const
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{
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if ( m_objects . empty ( ) )
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return L ( " All objects are outside of the print volume. " ) ;
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if ( extruders ( ) . empty ( ) )
return L ( " The supplied settings will cause an empty print. " ) ;
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if ( m_config . complete_objects ) {
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if ( ! sequential_print_horizontal_clearance_valid ( * this ) )
return L ( " Some objects are too close; your extruder will collide with them. " ) ;
if ( ! sequential_print_vertical_clearance_valid ( * this ) )
return L ( " Some objects are too tall and cannot be printed without extruder collisions. " ) ;
}
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if ( m_config . spiral_vase ) {
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size_t total_copies_count = 0 ;
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for ( const PrintObject * object : m_objects )
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total_copies_count + = object - > instances ( ) . size ( ) ;
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// #4043
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if ( total_copies_count > 1 & & ! m_config . complete_objects . value )
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return L ( " The Spiral Vase option can only be used when printing a single object. " ) ;
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assert ( m_objects . size ( ) = = 1 ) ;
size_t num_regions = 0 ;
for ( const std : : vector < std : : pair < t_layer_height_range , int > > & volumes_per_region : m_objects . front ( ) - > region_volumes )
if ( ! volumes_per_region . empty ( ) )
+ + num_regions ;
if ( num_regions > 1 )
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return L ( " The Spiral Vase option can only be used when printing single material objects. " ) ;
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}
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if ( this - > has_wipe_tower ( ) & & ! m_objects . empty ( ) ) {
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// Make sure all extruders use same diameter filament and have the same nozzle diameter
// EPSILON comparison is used for nozzles and 10 % tolerance is used for filaments
double first_nozzle_diam = m_config . nozzle_diameter . get_at ( extruders ( ) . front ( ) ) ;
double first_filament_diam = m_config . filament_diameter . get_at ( extruders ( ) . front ( ) ) ;
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for ( const auto & extruder_idx : extruders ( ) ) {
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double nozzle_diam = m_config . nozzle_diameter . get_at ( extruder_idx ) ;
double filament_diam = m_config . filament_diameter . get_at ( extruder_idx ) ;
if ( nozzle_diam - EPSILON > first_nozzle_diam | | nozzle_diam + EPSILON < first_nozzle_diam
| | std : : abs ( ( filament_diam - first_filament_diam ) / first_filament_diam ) > 0.1 )
return L ( " The wipe tower is only supported if all extruders have the same nozzle diameter "
" and use filaments of the same diameter. " ) ;
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}
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if ( m_config . gcode_flavor ! = gcfRepRap & & m_config . gcode_flavor ! = gcfRepetier & & m_config . gcode_flavor ! = gcfMarlin )
return L ( " The Wipe Tower is currently only supported for the Marlin, RepRap/Sprinter and Repetier G-code flavors. " ) ;
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if ( ! m_config . use_relative_e_distances )
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return L ( " The Wipe Tower is currently only supported with the relative extruder addressing (use_relative_e_distances=1) . " ) ;
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if ( m_config . ooze_prevention )
return L ( " Ooze prevention is currently not supported with the wipe tower enabled. " ) ;
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if ( m_config . use_volumetric_e )
return L ( " The Wipe Tower currently does not support volumetric E (use_volumetric_e=0) . " ) ;
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if ( m_config . complete_objects & & extruders ( ) . size ( ) > 1 )
return L ( " The Wipe Tower is currently not supported for multimaterial sequential prints. " ) ;
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if ( m_objects . size ( ) > 1 ) {
bool has_custom_layering = false ;
std : : vector < std : : vector < coordf_t > > layer_height_profiles ;
for ( const PrintObject * object : m_objects ) {
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has_custom_layering = ! object - > model_object ( ) - > layer_config_ranges . empty ( ) | | ! object - > model_object ( ) - > layer_height_profile . empty ( ) ;
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if ( has_custom_layering ) {
layer_height_profiles . assign ( m_objects . size ( ) , std : : vector < coordf_t > ( ) ) ;
break ;
}
}
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const SlicingParameters & slicing_params0 = m_objects . front ( ) - > slicing_parameters ( ) ;
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size_t tallest_object_idx = 0 ;
if ( has_custom_layering )
PrintObject : : update_layer_height_profile ( * m_objects . front ( ) - > model_object ( ) , slicing_params0 , layer_height_profiles . front ( ) ) ;
for ( size_t i = 1 ; i < m_objects . size ( ) ; + + i ) {
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const PrintObject * object = m_objects [ i ] ;
const SlicingParameters & slicing_params = object - > slicing_parameters ( ) ;
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if ( std : : abs ( slicing_params . first_print_layer_height - slicing_params0 . first_print_layer_height ) > EPSILON | |
std : : abs ( slicing_params . layer_height - slicing_params0 . layer_height ) > EPSILON )
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return L ( " The Wipe Tower is only supported for multiple objects if they have equal layer heights " ) ;
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if ( slicing_params . raft_layers ( ) ! = slicing_params0 . raft_layers ( ) )
return L ( " The Wipe Tower is only supported for multiple objects if they are printed over an equal number of raft layers " ) ;
if ( object - > config ( ) . support_material_contact_distance ! = m_objects . front ( ) - > config ( ) . support_material_contact_distance )
return L ( " The Wipe Tower is only supported for multiple objects if they are printed with the same support_material_contact_distance " ) ;
if ( ! equal_layering ( slicing_params , slicing_params0 ) )
return L ( " The Wipe Tower is only supported for multiple objects if they are sliced equally. " ) ;
if ( has_custom_layering ) {
PrintObject : : update_layer_height_profile ( * object - > model_object ( ) , slicing_params , layer_height_profiles [ i ] ) ;
if ( * ( layer_height_profiles [ i ] . end ( ) - 2 ) > * ( layer_height_profiles [ tallest_object_idx ] . end ( ) - 2 ) )
tallest_object_idx = i ;
}
}
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if ( has_custom_layering ) {
const std : : vector < coordf_t > & layer_height_profile_tallest = layer_height_profiles [ tallest_object_idx ] ;
for ( size_t idx_object = 0 ; idx_object < m_objects . size ( ) ; + + idx_object ) {
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if ( idx_object = = tallest_object_idx )
continue ;
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const std : : vector < coordf_t > & layer_height_profile = layer_height_profiles [ idx_object ] ;
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// The comparison of the profiles is not just about element-wise equality, some layers may not be
// explicitely included. Always remember z and height of last reference layer that in the vector
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// and compare to that. In case some layers are in the vectors multiple times, only the last entry is
// taken into account and compared.
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size_t i = 0 ; // index into tested profile
size_t j = 0 ; // index into reference profile
coordf_t ref_z = - 1. ;
coordf_t next_ref_z = layer_height_profile_tallest [ 0 ] ;
coordf_t ref_height = - 1. ;
while ( i < layer_height_profile . size ( ) ) {
coordf_t this_z = layer_height_profile [ i ] ;
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// find the last entry with this z
while ( i + 2 < layer_height_profile . size ( ) & & layer_height_profile [ i + 2 ] = = this_z )
i + = 2 ;
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coordf_t this_height = layer_height_profile [ i + 1 ] ;
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if ( ref_height < - 1. | | next_ref_z < this_z + EPSILON ) {
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ref_z = next_ref_z ;
do { // one layer can be in the vector several times
ref_height = layer_height_profile_tallest [ j + 1 ] ;
if ( j + 2 > = layer_height_profile_tallest . size ( ) )
break ;
j + = 2 ;
next_ref_z = layer_height_profile_tallest [ j ] ;
} while ( ref_z = = next_ref_z ) ;
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}
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if ( std : : abs ( this_height - ref_height ) > EPSILON )
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return L ( " The Wipe tower is only supported if all objects have the same variable layer height " ) ;
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i + = 2 ;
}
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}
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}
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}
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}
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{
std : : vector < unsigned int > extruders = this - > extruders ( ) ;
// Find the smallest used nozzle diameter and the number of unique nozzle diameters.
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double min_nozzle_diameter = std : : numeric_limits < double > : : max ( ) ;
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double max_nozzle_diameter = 0 ;
for ( unsigned int extruder_id : extruders ) {
double dmr = m_config . nozzle_diameter . get_at ( extruder_id ) ;
min_nozzle_diameter = std : : min ( min_nozzle_diameter , dmr ) ;
max_nozzle_diameter = std : : max ( max_nozzle_diameter , dmr ) ;
}
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#if 0
// We currently allow one to assign extruders with a higher index than the number
// of physical extruders the machine is equipped with, as the Printer::apply() clamps them.
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unsigned int total_extruders_count = m_config . nozzle_diameter . size ( ) ;
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for ( const auto & extruder_idx : extruders )
if ( extruder_idx > = total_extruders_count )
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return L ( " One or more object were assigned an extruder that the printer does not have. " ) ;
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# endif
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auto validate_extrusion_width = [ min_nozzle_diameter , max_nozzle_diameter ] ( const ConfigBase & config , const char * opt_key , double layer_height , std : : string & err_msg ) - > bool {
double extrusion_width_min = config . get_abs_value ( opt_key , min_nozzle_diameter ) ;
double extrusion_width_max = config . get_abs_value ( opt_key , max_nozzle_diameter ) ;
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if ( extrusion_width_min = = 0 ) {
// Default "auto-generated" extrusion width is always valid.
} else if ( extrusion_width_min < = layer_height ) {
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err_msg = ( boost : : format ( L ( " %1%=%2% mm is too low to be printable at a layer height %3% mm " ) ) % opt_key % extrusion_width_min % layer_height ) . str ( ) ;
return false ;
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} else if ( extrusion_width_max > = max_nozzle_diameter * 3. ) {
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err_msg = ( boost : : format ( L ( " Excessive %1%=%2% mm to be printable with a nozzle diameter %3% mm " ) ) % opt_key % extrusion_width_max % max_nozzle_diameter ) . str ( ) ;
return false ;
}
return true ;
} ;
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for ( PrintObject * object : m_objects ) {
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if ( object - > config ( ) . raft_layers > 0 | | object - > config ( ) . support_material . value ) {
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if ( ( object - > config ( ) . support_material_extruder = = 0 | | object - > config ( ) . support_material_interface_extruder = = 0 ) & & max_nozzle_diameter - min_nozzle_diameter > EPSILON ) {
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// The object has some form of support and either support_material_extruder or support_material_interface_extruder
// will be printed with the current tool without a forced tool change. Play safe, assert that all object nozzles
// are of the same diameter.
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return L ( " Printing with multiple extruders of differing nozzle diameters. "
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" If support is to be printed with the current extruder (support_material_extruder == 0 or support_material_interface_extruder == 0), "
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" all nozzles have to be of the same diameter. " ) ;
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}
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if ( this - > has_wipe_tower ( ) ) {
if ( object - > config ( ) . support_material_contact_distance = = 0 ) {
// Soluble interface
if ( object - > config ( ) . support_material_contact_distance = = 0 & & ! object - > config ( ) . support_material_synchronize_layers )
return L ( " For the Wipe Tower to work with the soluble supports, the support layers need to be synchronized with the object layers. " ) ;
} else {
// Non-soluble interface
if ( object - > config ( ) . support_material_extruder ! = 0 | | object - > config ( ) . support_material_interface_extruder ! = 0 )
return L ( " The Wipe Tower currently supports the non-soluble supports only if they are printed with the current extruder without triggering a tool change. "
" (both support_material_extruder and support_material_interface_extruder need to be set to 0). " ) ;
}
}
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}
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// validate first_layer_height
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double first_layer_height = object - > config ( ) . get_abs_value ( " first_layer_height " ) ;
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double first_layer_min_nozzle_diameter ;
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if ( object - > config ( ) . raft_layers > 0 ) {
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// if we have raft layers, only support material extruder is used on first layer
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size_t first_layer_extruder = object - > config ( ) . raft_layers = = 1
? object - > config ( ) . support_material_interface_extruder - 1
: object - > config ( ) . support_material_extruder - 1 ;
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first_layer_min_nozzle_diameter = ( first_layer_extruder = = size_t ( - 1 ) ) ?
min_nozzle_diameter :
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m_config . nozzle_diameter . get_at ( first_layer_extruder ) ;
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} else {
// if we don't have raft layers, any nozzle diameter is potentially used in first layer
first_layer_min_nozzle_diameter = min_nozzle_diameter ;
}
if ( first_layer_height > first_layer_min_nozzle_diameter )
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return L ( " First layer height can't be greater than nozzle diameter " ) ;
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// validate layer_height
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double layer_height = object - > config ( ) . layer_height . value ;
if ( layer_height > min_nozzle_diameter )
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return L ( " Layer height can't be greater than nozzle diameter " ) ;
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// Validate extrusion widths.
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std : : string err_msg ;
if ( ! validate_extrusion_width ( object - > config ( ) , " extrusion_width " , layer_height , err_msg ) )
return err_msg ;
if ( ( object - > config ( ) . support_material | | object - > config ( ) . raft_layers > 0 ) & & ! validate_extrusion_width ( object - > config ( ) , " support_material_extrusion_width " , layer_height , err_msg ) )
return err_msg ;
for ( const char * opt_key : { " perimeter_extrusion_width " , " external_perimeter_extrusion_width " , " infill_extrusion_width " , " solid_infill_extrusion_width " , " top_infill_extrusion_width " } )
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for ( size_t i = 0 ; i < object - > region_volumes . size ( ) ; + + i )
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if ( ! object - > region_volumes [ i ] . empty ( ) & & ! validate_extrusion_width ( this - > get_region ( i ) - > config ( ) , opt_key , layer_height , err_msg ) )
return err_msg ;
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}
}
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return std : : string ( ) ;
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}
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#if 0
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// the bounding box of objects placed in copies position
// (without taking skirt/brim/support material into account)
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BoundingBox Print : : bounding_box ( ) const
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{
BoundingBox bb ;
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for ( const PrintObject * object : m_objects )
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for ( const PrintInstance & instance : object - > instances ( ) ) {
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BoundingBox bb2 ( object - > bounding_box ( ) ) ;
bb . merge ( bb2 . min + instance . shift ) ;
bb . merge ( bb2 . max + instance . shift ) ;
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}
return bb ;
}
// the total bounding box of extrusions, including skirt/brim/support material
// this methods needs to be called even when no steps were processed, so it should
// only use configuration values
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BoundingBox Print : : total_bounding_box ( ) const
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{
// get objects bounding box
BoundingBox bb = this - > bounding_box ( ) ;
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// we need to offset the objects bounding box by at least half the perimeters extrusion width
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Flow perimeter_flow = m_objects . front ( ) - > get_layer ( 0 ) - > get_region ( 0 ) - > flow ( frPerimeter ) ;
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double extra = perimeter_flow . width / 2 ;
// consider support material
if ( this - > has_support_material ( ) ) {
extra = std : : max ( extra , SUPPORT_MATERIAL_MARGIN ) ;
}
// consider brim and skirt
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if ( m_config . brim_width . value > 0 ) {
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Flow brim_flow = this - > brim_flow ( ) ;
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extra = std : : max ( extra , m_config . brim_width . value + brim_flow . width / 2 ) ;
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}
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if ( this - > has_skirt ( ) ) {
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int skirts = m_config . skirts . value ;
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if ( skirts = = 0 & & this - > has_infinite_skirt ( ) ) skirts = 1 ;
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Flow skirt_flow = this - > skirt_flow ( ) ;
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extra = std : : max (
extra ,
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m_config . brim_width . value
+ m_config . skirt_distance . value
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+ skirts * skirt_flow . spacing ( )
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+ skirt_flow . width / 2
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) ;
}
if ( extra > 0 )
bb . offset ( scale_ ( extra ) ) ;
return bb ;
}
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# endif
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2017-05-30 18:09:34 +00:00
double Print : : skirt_first_layer_height ( ) const
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{
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if ( m_objects . empty ( ) )
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throw Slic3r : : InvalidArgument ( " skirt_first_layer_height() can't be called without PrintObjects " ) ;
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return m_objects . front ( ) - > config ( ) . get_abs_value ( " first_layer_height " ) ;
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}
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Flow Print : : brim_flow ( ) const
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{
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ConfigOptionFloatOrPercent width = m_config . first_layer_extrusion_width ;
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if ( width . value = = 0 )
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width = m_regions . front ( ) - > config ( ) . perimeter_extrusion_width ;
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if ( width . value = = 0 )
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width = m_objects . front ( ) - > config ( ) . extrusion_width ;
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/* We currently use a random region's perimeter extruder.
While this works for most cases , we should probably consider all of the perimeter
extruders and take the one with , say , the smallest index .
The same logic should be applied to the code that selects the extruder during G - code
generation as well . */
return Flow : : new_from_config_width (
frPerimeter ,
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width ,
( float ) m_config . nozzle_diameter . get_at ( m_regions . front ( ) - > config ( ) . perimeter_extruder - 1 ) ,
( float ) this - > skirt_first_layer_height ( ) ,
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0
) ;
}
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Flow Print : : skirt_flow ( ) const
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{
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ConfigOptionFloatOrPercent width = m_config . first_layer_extrusion_width ;
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if ( width . value = = 0 )
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width = m_regions . front ( ) - > config ( ) . perimeter_extrusion_width ;
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if ( width . value = = 0 )
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width = m_objects . front ( ) - > config ( ) . extrusion_width ;
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/* We currently use a random object's support material extruder.
While this works for most cases , we should probably consider all of the support material
extruders and take the one with , say , the smallest index ;
The same logic should be applied to the code that selects the extruder during G - code
generation as well . */
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return Flow : : new_from_config_width (
frPerimeter ,
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width ,
( float ) m_config . nozzle_diameter . get_at ( m_objects . front ( ) - > config ( ) . support_material_extruder - 1 ) ,
( float ) this - > skirt_first_layer_height ( ) ,
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0
) ;
}
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bool Print : : has_support_material ( ) const
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{
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for ( const PrintObject * object : m_objects )
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if ( object - > has_support_material ( ) )
return true ;
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return false ;
}
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/* This method assigns extruders to the volumes having a material
but not having extruders set in the volume config . */
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void Print : : auto_assign_extruders ( ModelObject * model_object ) const
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{
// only assign extruders if object has more than one volume
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if ( model_object - > volumes . size ( ) < 2 )
return ;
2015-12-02 17:29:33 +00:00
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// size_t extruders = m_config.nozzle_diameter.values.size();
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for ( size_t volume_id = 0 ; volume_id < model_object - > volumes . size ( ) ; + + volume_id ) {
ModelVolume * volume = model_object - > volumes [ volume_id ] ;
//FIXME Vojtech: This assigns an extruder ID even to a modifier volume, if it has a material assigned.
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if ( ( volume - > is_model_part ( ) | | volume - > is_modifier ( ) ) & & ! volume - > material_id ( ) . empty ( ) & & ! volume - > config . has ( " extruder " ) )
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volume - > config . set ( " extruder " , int ( volume_id + 1 ) ) ;
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}
}
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// Slicing process, running at a background thread.
void Print : : process ( )
{
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BOOST_LOG_TRIVIAL ( info ) < < " Starting the slicing process. " < < log_memory_info ( ) ;
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for ( PrintObject * obj : m_objects )
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obj - > make_perimeters ( ) ;
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this - > set_status ( 70 , L ( " Infilling layers " ) ) ;
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for ( PrintObject * obj : m_objects )
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obj - > infill ( ) ;
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for ( PrintObject * obj : m_objects )
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obj - > ironing ( ) ;
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for ( PrintObject * obj : m_objects )
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obj - > generate_support_material ( ) ;
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if ( this - > set_started ( psWipeTower ) ) {
m_wipe_tower_data . clear ( ) ;
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m_tool_ordering . clear ( ) ;
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if ( this - > has_wipe_tower ( ) ) {
//this->set_status(95, L("Generating wipe tower"));
this - > _make_wipe_tower ( ) ;
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} else if ( ! this - > config ( ) . complete_objects . value ) {
// Initialize the tool ordering, so it could be used by the G-code preview slider for planning tool changes and filament switches.
m_tool_ordering = ToolOrdering ( * this , - 1 , false ) ;
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if ( m_tool_ordering . empty ( ) | | m_tool_ordering . last_extruder ( ) = = unsigned ( - 1 ) )
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throw Slic3r : : SlicingError ( " The print is empty. The model is not printable with current print settings. " ) ;
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}
this - > set_done ( psWipeTower ) ;
}
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if ( this - > set_started ( psSkirt ) ) {
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m_skirt . clear ( ) ;
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m_skirt_convex_hull . clear ( ) ;
m_first_layer_convex_hull . points . clear ( ) ;
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if ( this - > has_skirt ( ) ) {
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this - > set_status ( 88 , L ( " Generating skirt " ) ) ;
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this - > _make_skirt ( ) ;
}
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this - > set_done ( psSkirt ) ;
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}
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if ( this - > set_started ( psBrim ) ) {
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m_brim . clear ( ) ;
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m_first_layer_convex_hull . points . clear ( ) ;
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if ( m_config . brim_width > 0 ) {
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this - > set_status ( 88 , L ( " Generating brim " ) ) ;
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this - > _make_brim ( ) ;
}
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// Brim depends on skirt (brim lines are trimmed by the skirt lines), therefore if
// the skirt gets invalidated, brim gets invalidated as well and the following line is called.
this - > finalize_first_layer_convex_hull ( ) ;
this - > set_done ( psBrim ) ;
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}
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BOOST_LOG_TRIVIAL ( info ) < < " Slicing process finished. " < < log_memory_info ( ) ;
2018-03-23 10:41:20 +00:00
}
// G-code export process, running at a background thread.
// The export_gcode may die for various reasons (fails to process output_filename_format,
// write error into the G-code, cannot execute post-processing scripts).
// It is up to the caller to show an error message.
2020-03-02 14:13:23 +00:00
# if ENABLE_GCODE_VIEWER
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std : : string Print : : export_gcode ( const std : : string & path_template , GCodeProcessor : : Result * result , ThumbnailsGeneratorCallback thumbnail_cb )
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# else
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std : : string Print : : export_gcode ( const std : : string & path_template , GCodePreviewData * preview_data , ThumbnailsGeneratorCallback thumbnail_cb )
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# endif // ENABLE_GCODE_VIEWER
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{
// output everything to a G-code file
// The following call may die if the output_filename_format template substitution fails.
std : : string path = this - > output_filepath ( path_template ) ;
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std : : string message ;
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# if ENABLE_GCODE_VIEWER
if ( ! path . empty ( ) & & result = = nullptr ) {
# else
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if ( ! path . empty ( ) & & preview_data = = nullptr ) {
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# endif // ENABLE_GCODE_VIEWER
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// Only show the path if preview_data is not set -> running from command line.
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message = L ( " Exporting G-code " ) ;
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message + = " to " ;
message + = path ;
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} else
message = L ( " Generating G-code " ) ;
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this - > set_status ( 90 , message ) ;
// The following line may die for multiple reasons.
GCode gcode ;
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# if ENABLE_GCODE_VIEWER
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gcode . do_export ( this , path . c_str ( ) , result , thumbnail_cb ) ;
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# else
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gcode . do_export ( this , path . c_str ( ) , preview_data , thumbnail_cb ) ;
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# endif // ENABLE_GCODE_VIEWER
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return path . c_str ( ) ;
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}
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void Print : : _make_skirt ( )
{
// First off we need to decide how tall the skirt must be.
// The skirt_height option from config is expressed in layers, but our
// object might have different layer heights, so we need to find the print_z
// of the highest layer involved.
// Note that unless has_infinite_skirt() == true
// the actual skirt might not reach this $skirt_height_z value since the print
// order of objects on each layer is not guaranteed and will not generally
// include the thickest object first. It is just guaranteed that a skirt is
// prepended to the first 'n' layers (with 'n' = skirt_height).
// $skirt_height_z in this case is the highest possible skirt height for safety.
coordf_t skirt_height_z = 0. ;
2018-11-08 13:23:17 +00:00
for ( const PrintObject * object : m_objects ) {
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size_t skirt_layers = this - > has_infinite_skirt ( ) ?
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object - > layer_count ( ) :
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std : : min ( size_t ( m_config . skirt_height . value ) , object - > layer_count ( ) ) ;
skirt_height_z = std : : max ( skirt_height_z , object - > m_layers [ skirt_layers - 1 ] - > print_z ) ;
2017-02-15 10:05:52 +00:00
}
// Collect points from all layers contained in skirt height.
Points points ;
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for ( const PrintObject * object : m_objects ) {
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Points object_points ;
// Get object layers up to skirt_height_z.
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for ( const Layer * layer : object - > m_layers ) {
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if ( layer - > print_z > skirt_height_z )
break ;
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for ( const ExPolygon & expoly : layer - > lslices )
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// Collect the outer contour points only, ignore holes for the calculation of the convex hull.
append ( object_points , expoly . contour . points ) ;
}
// Get support layers up to skirt_height_z.
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for ( const SupportLayer * layer : object - > support_layers ( ) ) {
2017-02-15 10:05:52 +00:00
if ( layer - > print_z > skirt_height_z )
break ;
for ( const ExtrusionEntity * extrusion_entity : layer - > support_fills . entities )
append ( object_points , extrusion_entity - > as_polyline ( ) . points ) ;
}
// Repeat points for each object copy.
2020-01-23 08:53:06 +00:00
for ( const PrintInstance & instance : object - > instances ( ) ) {
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Points copy_points = object_points ;
for ( Point & pt : copy_points )
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pt + = instance . shift ;
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append ( points , copy_points ) ;
}
}
2019-05-07 03:33:09 +00:00
// Include the wipe tower.
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append ( points , this - > first_layer_wipe_tower_corners ( ) ) ;
2019-05-07 03:33:09 +00:00
2017-02-15 10:05:52 +00:00
if ( points . size ( ) < 3 )
// At least three points required for a convex hull.
return ;
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this - > throw_if_canceled ( ) ;
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Polygon convex_hull = Slic3r : : Geometry : : convex_hull ( points ) ;
// Skirt may be printed on several layers, having distinct layer heights,
// but loops must be aligned so can't vary width/spacing
// TODO: use each extruder's own flow
double first_layer_height = this - > skirt_first_layer_height ( ) ;
Flow flow = this - > skirt_flow ( ) ;
float spacing = flow . spacing ( ) ;
double mm3_per_mm = flow . mm3_per_mm ( ) ;
std : : vector < size_t > extruders ;
std : : vector < double > extruders_e_per_mm ;
{
auto set_extruders = this - > extruders ( ) ;
extruders . reserve ( set_extruders . size ( ) ) ;
extruders_e_per_mm . reserve ( set_extruders . size ( ) ) ;
for ( auto & extruder_id : set_extruders ) {
extruders . push_back ( extruder_id ) ;
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extruders_e_per_mm . push_back ( Extruder ( ( unsigned int ) extruder_id , & m_config ) . e_per_mm ( mm3_per_mm ) ) ;
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}
}
// Number of skirt loops per skirt layer.
2019-06-25 11:06:04 +00:00
size_t n_skirts = m_config . skirts . value ;
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if ( this - > has_infinite_skirt ( ) & & n_skirts = = 0 )
n_skirts = 1 ;
// Initial offset of the brim inner edge from the object (possible with a support & raft).
// The skirt will touch the brim if the brim is extruded.
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auto distance = float ( scale_ ( m_config . skirt_distance . value ) - spacing / 2. ) ;
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// Draw outlines from outside to inside.
// Loop while we have less skirts than required or any extruder hasn't reached the min length if any.
std : : vector < coordf_t > extruded_length ( extruders . size ( ) , 0. ) ;
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for ( size_t i = n_skirts , extruder_idx = 0 ; i > 0 ; - - i ) {
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this - > throw_if_canceled ( ) ;
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// Offset the skirt outside.
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distance + = float ( scale_ ( spacing ) ) ;
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// Generate the skirt centerline.
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Polygon loop ;
{
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Polygons loops = offset ( convex_hull , distance , ClipperLib : : jtRound , float ( scale_ ( 0.1 ) ) ) ;
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Geometry : : simplify_polygons ( loops , scale_ ( 0.05 ) , & loops ) ;
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if ( loops . empty ( ) )
break ;
loop = loops . front ( ) ;
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}
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// Extrude the skirt loop.
ExtrusionLoop eloop ( elrSkirt ) ;
eloop . paths . emplace_back ( ExtrusionPath (
ExtrusionPath (
erSkirt ,
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( float ) mm3_per_mm , // this will be overridden at G-code export time
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flow . width ,
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( float ) first_layer_height // this will be overridden at G-code export time
2017-02-15 10:05:52 +00:00
) ) ) ;
eloop . paths . back ( ) . polyline = loop . split_at_first_point ( ) ;
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m_skirt . append ( eloop ) ;
if ( m_config . min_skirt_length . value > 0 ) {
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// The skirt length is limited. Sum the total amount of filament length extruded, in mm.
2018-08-21 15:43:05 +00:00
extruded_length [ extruder_idx ] + = unscale < double > ( loop . length ( ) ) * extruders_e_per_mm [ extruder_idx ] ;
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if ( extruded_length [ extruder_idx ] < m_config . min_skirt_length . value ) {
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// Not extruded enough yet with the current extruder. Add another loop.
if ( i = = 1 )
+ + i ;
} else {
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assert ( extruded_length [ extruder_idx ] > = m_config . min_skirt_length . value ) ;
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// Enough extruded with the current extruder. Extrude with the next one,
// until the prescribed number of skirt loops is extruded.
if ( extruder_idx + 1 < extruders . size ( ) )
+ + extruder_idx ;
}
} else {
// The skirt lenght is not limited, extrude the skirt with the 1st extruder only.
}
}
// Brims were generated inside out, reverse to print the outmost contour first.
2018-09-11 12:04:47 +00:00
m_skirt . reverse ( ) ;
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// Remember the outer edge of the last skirt line extruded as m_skirt_convex_hull.
for ( Polygon & poly : offset ( convex_hull , distance + 0.5f * float ( scale_ ( spacing ) ) , ClipperLib : : jtRound , float ( scale_ ( 0.1 ) ) ) )
append ( m_skirt_convex_hull , std : : move ( poly . points ) ) ;
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}
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void Print : : _make_brim ( )
{
// Brim is only printed on first layer and uses perimeter extruder.
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Polygons islands = this - > first_layer_islands ( ) ;
Polygons loops ;
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Flow flow = this - > brim_flow ( ) ;
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size_t num_loops = size_t ( floor ( m_config . brim_width . value / flow . spacing ( ) ) ) ;
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for ( size_t i = 0 ; i < num_loops ; + + i ) {
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this - > throw_if_canceled ( ) ;
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islands = offset ( islands , float ( flow . scaled_spacing ( ) ) , jtSquare ) ;
for ( Polygon & poly : islands ) {
// poly.simplify(SCALED_RESOLUTION);
poly . points . push_back ( poly . points . front ( ) ) ;
Points p = MultiPoint : : _douglas_peucker ( poly . points , SCALED_RESOLUTION ) ;
p . pop_back ( ) ;
poly . points = std : : move ( p ) ;
}
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if ( i + 1 = = num_loops ) {
// Remember the outer edge of the last brim line extruded as m_first_layer_convex_hull.
for ( Polygon & poly : islands )
append ( m_first_layer_convex_hull . points , poly . points ) ;
}
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polygons_append ( loops , offset ( islands , - 0.5f * float ( flow . scaled_spacing ( ) ) ) ) ;
}
loops = union_pt_chained ( loops , false ) ;
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// The function above produces ordering well suited for concentric infill (from outside to inside).
// For Brim, the ordering should be reversed (from inside to outside).
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std : : reverse ( loops . begin ( ) , loops . end ( ) ) ;
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// If there is a possibility that brim intersects skirt, go through loops and split those extrusions
// The result is either the original Polygon or a list of Polylines
if ( ! m_skirt . empty ( ) & & m_config . skirt_distance . value < m_config . brim_width )
{
// Find the bounding polygons of the skirt
const Polygons skirt_inners = offset ( dynamic_cast < ExtrusionLoop * > ( m_skirt . entities . back ( ) ) - > polygon ( ) ,
- float ( scale_ ( this - > skirt_flow ( ) . spacing ( ) ) ) / 2.f ,
ClipperLib : : jtRound ,
float ( scale_ ( 0.1 ) ) ) ;
const Polygons skirt_outers = offset ( dynamic_cast < ExtrusionLoop * > ( m_skirt . entities . front ( ) ) - > polygon ( ) ,
float ( scale_ ( this - > skirt_flow ( ) . spacing ( ) ) ) / 2.f ,
ClipperLib : : jtRound ,
float ( scale_ ( 0.1 ) ) ) ;
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// First calculate the trimming region.
ClipperLib_Z : : Paths trimming ;
{
ClipperLib_Z : : Paths input_subject ;
ClipperLib_Z : : Paths input_clip ;
for ( const Polygon & poly : skirt_outers ) {
input_subject . emplace_back ( ) ;
ClipperLib_Z : : Path & out = input_subject . back ( ) ;
out . reserve ( poly . points . size ( ) ) ;
for ( const Point & pt : poly . points )
out . emplace_back ( pt . x ( ) , pt . y ( ) , 0 ) ;
}
for ( const Polygon & poly : skirt_inners ) {
input_clip . emplace_back ( ) ;
ClipperLib_Z : : Path & out = input_clip . back ( ) ;
out . reserve ( poly . points . size ( ) ) ;
for ( const Point & pt : poly . points )
out . emplace_back ( pt . x ( ) , pt . y ( ) , 0 ) ;
}
// init Clipper
ClipperLib_Z : : Clipper clipper ;
// add polygons
clipper . AddPaths ( input_subject , ClipperLib_Z : : ptSubject , true ) ;
clipper . AddPaths ( input_clip , ClipperLib_Z : : ptClip , true ) ;
// perform operation
clipper . Execute ( ClipperLib_Z : : ctDifference , trimming , ClipperLib_Z : : pftEvenOdd , ClipperLib_Z : : pftEvenOdd ) ;
}
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// Second, trim the extrusion loops with the trimming regions.
ClipperLib_Z : : Paths loops_trimmed ;
{
// Produce a closed polyline (repeat the first point at the end).
ClipperLib_Z : : Paths input_clip ;
for ( const Polygon & loop : loops ) {
input_clip . emplace_back ( ) ;
ClipperLib_Z : : Path & out = input_clip . back ( ) ;
out . reserve ( loop . points . size ( ) ) ;
int64_t loop_idx = & loop - & loops . front ( ) ;
for ( const Point & pt : loop . points )
// The Z coordinate carries index of the source loop.
out . emplace_back ( pt . x ( ) , pt . y ( ) , loop_idx + 1 ) ;
out . emplace_back ( out . front ( ) ) ;
}
// init Clipper
ClipperLib_Z : : Clipper clipper ;
clipper . ZFillFunction ( [ ] ( const ClipperLib_Z : : IntPoint & e1bot , const ClipperLib_Z : : IntPoint & e1top , const ClipperLib_Z : : IntPoint & e2bot , const ClipperLib_Z : : IntPoint & e2top , ClipperLib_Z : : IntPoint & pt ) {
// Assign a valid input loop identifier. Such an identifier is strictly positive, the next line is safe even in case one side of a segment
// hat the Z coordinate not set to the contour coordinate.
pt . Z = std : : max ( std : : max ( e1bot . Z , e1top . Z ) , std : : max ( e2bot . Z , e2top . Z ) ) ;
} ) ;
// add polygons
clipper . AddPaths ( input_clip , ClipperLib_Z : : ptSubject , false ) ;
clipper . AddPaths ( trimming , ClipperLib_Z : : ptClip , true ) ;
// perform operation
ClipperLib_Z : : PolyTree loops_trimmed_tree ;
clipper . Execute ( ClipperLib_Z : : ctDifference , loops_trimmed_tree , ClipperLib_Z : : pftEvenOdd , ClipperLib_Z : : pftEvenOdd ) ;
ClipperLib_Z : : PolyTreeToPaths ( loops_trimmed_tree , loops_trimmed ) ;
}
// Third, produce the extrusions, sorted by the source loop indices.
{
std : : vector < std : : pair < const ClipperLib_Z : : Path * , size_t > > loops_trimmed_order ;
loops_trimmed_order . reserve ( loops_trimmed . size ( ) ) ;
for ( const ClipperLib_Z : : Path & path : loops_trimmed ) {
size_t input_idx = 0 ;
for ( const ClipperLib_Z : : IntPoint & pt : path )
if ( pt . Z > 0 ) {
input_idx = ( size_t ) pt . Z ;
break ;
}
assert ( input_idx ! = 0 ) ;
loops_trimmed_order . emplace_back ( & path , input_idx ) ;
}
std : : stable_sort ( loops_trimmed_order . begin ( ) , loops_trimmed_order . end ( ) ,
[ ] ( const std : : pair < const ClipperLib_Z : : Path * , size_t > & l , const std : : pair < const ClipperLib_Z : : Path * , size_t > & r ) {
return l . second < r . second ;
} ) ;
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Point last_pt ( 0 , 0 ) ;
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for ( size_t i = 0 ; i < loops_trimmed_order . size ( ) ; ) {
// Find all pieces that the initial loop was split into.
size_t j = i + 1 ;
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for ( ; j < loops_trimmed_order . size ( ) & & loops_trimmed_order [ i ] . second = = loops_trimmed_order [ j ] . second ; + + j ) ;
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const ClipperLib_Z : : Path & first_path = * loops_trimmed_order [ i ] . first ;
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if ( i + 1 = = j & & first_path . size ( ) > 3 & & first_path . front ( ) . X = = first_path . back ( ) . X & & first_path . front ( ) . Y = = first_path . back ( ) . Y ) {
auto * loop = new ExtrusionLoop ( ) ;
m_brim . entities . emplace_back ( loop ) ;
loop - > paths . emplace_back ( erSkirt , float ( flow . mm3_per_mm ( ) ) , float ( flow . width ) , float ( this - > skirt_first_layer_height ( ) ) ) ;
Points & points = loop - > paths . front ( ) . polyline . points ;
points . reserve ( first_path . size ( ) ) ;
for ( const ClipperLib_Z : : IntPoint & pt : first_path )
points . emplace_back ( coord_t ( pt . X ) , coord_t ( pt . Y ) ) ;
i = j ;
} else {
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//FIXME The path chaining here may not be optimal.
ExtrusionEntityCollection this_loop_trimmed ;
this_loop_trimmed . entities . reserve ( j - i ) ;
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for ( ; i < j ; + + i ) {
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this_loop_trimmed . entities . emplace_back ( new ExtrusionPath ( erSkirt , float ( flow . mm3_per_mm ( ) ) , float ( flow . width ) , float ( this - > skirt_first_layer_height ( ) ) ) ) ;
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const ClipperLib_Z : : Path & path = * loops_trimmed_order [ i ] . first ;
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Points & points = static_cast < ExtrusionPath * > ( this_loop_trimmed . entities . back ( ) ) - > polyline . points ;
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points . reserve ( path . size ( ) ) ;
for ( const ClipperLib_Z : : IntPoint & pt : path )
points . emplace_back ( coord_t ( pt . X ) , coord_t ( pt . Y ) ) ;
}
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chain_and_reorder_extrusion_entities ( this_loop_trimmed . entities , & last_pt ) ;
m_brim . entities . reserve ( m_brim . entities . size ( ) + this_loop_trimmed . entities . size ( ) ) ;
append ( m_brim . entities , std : : move ( this_loop_trimmed . entities ) ) ;
this_loop_trimmed . entities . clear ( ) ;
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}
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last_pt = m_brim . last_point ( ) ;
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}
}
} else {
extrusion_entities_append_loops ( m_brim . entities , std : : move ( loops ) , erSkirt , float ( flow . mm3_per_mm ( ) ) , float ( flow . width ) , float ( this - > skirt_first_layer_height ( ) ) ) ;
}
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}
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Polygons Print : : first_layer_islands ( ) const
{
Polygons islands ;
for ( PrintObject * object : m_objects ) {
Polygons object_islands ;
for ( ExPolygon & expoly : object - > m_layers . front ( ) - > lslices )
object_islands . push_back ( expoly . contour ) ;
if ( ! object - > support_layers ( ) . empty ( ) )
object - > support_layers ( ) . front ( ) - > support_fills . polygons_covered_by_spacing ( object_islands , float ( SCALED_EPSILON ) ) ;
islands . reserve ( islands . size ( ) + object_islands . size ( ) * object - > instances ( ) . size ( ) ) ;
for ( const PrintInstance & instance : object - > instances ( ) )
for ( Polygon & poly : object_islands ) {
islands . push_back ( poly ) ;
islands . back ( ) . translate ( instance . shift ) ;
}
}
return islands ;
}
std : : vector < Point > Print : : first_layer_wipe_tower_corners ( ) const
{
std : : vector < Point > corners ;
if ( has_wipe_tower ( ) & & ! m_wipe_tower_data . tool_changes . empty ( ) ) {
double width = m_config . wipe_tower_width + 2 * m_wipe_tower_data . brim_width ;
double depth = m_wipe_tower_data . depth + 2 * m_wipe_tower_data . brim_width ;
Vec2d pt0 ( - m_wipe_tower_data . brim_width , - m_wipe_tower_data . brim_width ) ;
for ( Vec2d pt : {
pt0 ,
Vec2d ( pt0 . x ( ) + width , pt0 . y ( ) ) ,
Vec2d ( pt0 . x ( ) + width , pt0 . y ( ) + depth ) ,
Vec2d ( pt0 . x ( ) , pt0 . y ( ) + depth )
} ) {
pt = Eigen : : Rotation2Dd ( Geometry : : deg2rad ( m_config . wipe_tower_rotation_angle . value ) ) * pt ;
pt + = Vec2d ( m_config . wipe_tower_x . value , m_config . wipe_tower_y . value ) ;
corners . emplace_back ( Point ( scale_ ( pt . x ( ) ) , scale_ ( pt . y ( ) ) ) ) ;
}
}
return corners ;
}
void Print : : finalize_first_layer_convex_hull ( )
{
append ( m_first_layer_convex_hull . points , m_skirt_convex_hull ) ;
if ( m_first_layer_convex_hull . empty ( ) ) {
// Neither skirt nor brim was extruded. Collect points of printed objects from 1st layer.
for ( Polygon & poly : this - > first_layer_islands ( ) )
append ( m_first_layer_convex_hull . points , std : : move ( poly . points ) ) ;
}
append ( m_first_layer_convex_hull . points , this - > first_layer_wipe_tower_corners ( ) ) ;
m_first_layer_convex_hull = Geometry : : convex_hull ( m_first_layer_convex_hull . points ) ;
}
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// Wipe tower support.
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bool Print : : has_wipe_tower ( ) const
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{
return
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! m_config . spiral_vase . value & &
m_config . wipe_tower . value & &
m_config . nozzle_diameter . values . size ( ) > 1 ;
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}
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const WipeTowerData & Print : : wipe_tower_data ( size_t extruders_cnt , double first_layer_height , double nozzle_diameter ) const
{
// If the wipe tower wasn't created yet, make sure the depth and brim_width members are set to default.
if ( ! is_step_done ( psWipeTower ) & & extruders_cnt ! = 0 ) {
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float width = float ( m_config . wipe_tower_width ) ;
float brim_spacing = float ( nozzle_diameter * 1.25f - first_layer_height * ( 1. - M_PI_4 ) ) ;
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const_cast < Print * > ( this ) - > m_wipe_tower_data . depth = ( 900.f / width ) * float ( extruders_cnt - 1 ) ;
const_cast < Print * > ( this ) - > m_wipe_tower_data . brim_width = 4.5f * brim_spacing ;
}
return m_wipe_tower_data ;
}
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void Print : : _make_wipe_tower ( )
{
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m_wipe_tower_data . clear ( ) ;
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if ( ! this - > has_wipe_tower ( ) )
return ;
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// Get wiping matrix to get number of extruders and convert vector<double> to vector<float>:
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std : : vector < float > wiping_matrix ( cast < float > ( m_config . wiping_volumes_matrix . values ) ) ;
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// Extract purging volumes for each extruder pair:
std : : vector < std : : vector < float > > wipe_volumes ;
const unsigned int number_of_extruders = ( unsigned int ) ( sqrt ( wiping_matrix . size ( ) ) + EPSILON ) ;
for ( unsigned int i = 0 ; i < number_of_extruders ; + + i )
wipe_volumes . push_back ( std : : vector < float > ( wiping_matrix . begin ( ) + i * number_of_extruders , wiping_matrix . begin ( ) + ( i + 1 ) * number_of_extruders ) ) ;
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// Let the ToolOrdering class know there will be initial priming extrusions at the start of the print.
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m_wipe_tower_data . tool_ordering = ToolOrdering ( * this , ( unsigned int ) - 1 , true ) ;
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if ( ! m_wipe_tower_data . tool_ordering . has_wipe_tower ( ) )
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// Don't generate any wipe tower.
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return ;
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// Check whether there are any layers in m_tool_ordering, which are marked with has_wipe_tower,
// they print neither object, nor support. These layers are above the raft and below the object, and they
// shall be added to the support layers to be printed.
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// see https://github.com/prusa3d/PrusaSlicer/issues/607
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{
size_t idx_begin = size_t ( - 1 ) ;
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size_t idx_end = m_wipe_tower_data . tool_ordering . layer_tools ( ) . size ( ) ;
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// Find the first wipe tower layer, which does not have a counterpart in an object or a support layer.
for ( size_t i = 0 ; i < idx_end ; + + i ) {
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const LayerTools & lt = m_wipe_tower_data . tool_ordering . layer_tools ( ) [ i ] ;
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if ( lt . has_wipe_tower & & ! lt . has_object & & ! lt . has_support ) {
idx_begin = i ;
break ;
}
}
if ( idx_begin ! = size_t ( - 1 ) ) {
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// Find the position in m_objects.first()->support_layers to insert these new support layers.
double wipe_tower_new_layer_print_z_first = m_wipe_tower_data . tool_ordering . layer_tools ( ) [ idx_begin ] . print_z ;
SupportLayerPtrs : : const_iterator it_layer = m_objects . front ( ) - > support_layers ( ) . begin ( ) ;
SupportLayerPtrs : : const_iterator it_end = m_objects . front ( ) - > support_layers ( ) . end ( ) ;
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for ( ; it_layer ! = it_end & & ( * it_layer ) - > print_z - EPSILON < wipe_tower_new_layer_print_z_first ; + + it_layer ) ;
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// Find the stopper of the sequence of wipe tower layers, which do not have a counterpart in an object or a support layer.
for ( size_t i = idx_begin ; i < idx_end ; + + i ) {
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LayerTools & lt = const_cast < LayerTools & > ( m_wipe_tower_data . tool_ordering . layer_tools ( ) [ i ] ) ;
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if ( ! ( lt . has_wipe_tower & & ! lt . has_object & & ! lt . has_support ) )
break ;
lt . has_support = true ;
// Insert the new support layer.
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double height = lt . print_z - ( i = = 0 ? 0. : m_wipe_tower_data . tool_ordering . layer_tools ( ) [ i - 1 ] . print_z ) ;
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//FIXME the support layer ID is set to -1, as Vojtech hopes it is not being used anyway.
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it_layer = m_objects . front ( ) - > insert_support_layer ( it_layer , - 1 , height , lt . print_z , lt . print_z - 0.5 * height ) ;
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+ + it_layer ;
}
}
}
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this - > throw_if_canceled ( ) ;
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// Initialize the wipe tower.
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WipeTower wipe_tower ( m_config , wipe_volumes , m_wipe_tower_data . tool_ordering . first_extruder ( ) ) ;
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//wipe_tower.set_retract();
//wipe_tower.set_zhop();
// Set the extruder & material properties at the wipe tower object.
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for ( size_t i = 0 ; i < number_of_extruders ; + + i )
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wipe_tower . set_extruder (
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i , m_config ) ;
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m_wipe_tower_data . priming = Slic3r : : make_unique < std : : vector < WipeTower : : ToolChangeResult > > (
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wipe_tower . prime ( ( float ) this - > skirt_first_layer_height ( ) , m_wipe_tower_data . tool_ordering . all_extruders ( ) , false ) ) ;
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// Lets go through the wipe tower layers and determine pairs of extruder changes for each
// to pass to wipe_tower (so that it can use it for planning the layout of the tower)
{
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unsigned int current_extruder_id = m_wipe_tower_data . tool_ordering . all_extruders ( ) . back ( ) ;
for ( auto & layer_tools : m_wipe_tower_data . tool_ordering . layer_tools ( ) ) { // for all layers
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if ( ! layer_tools . has_wipe_tower ) continue ;
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bool first_layer = & layer_tools = = & m_wipe_tower_data . tool_ordering . front ( ) ;
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wipe_tower . plan_toolchange ( ( float ) layer_tools . print_z , ( float ) layer_tools . wipe_tower_layer_height , current_extruder_id , current_extruder_id , false ) ;
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for ( const auto extruder_id : layer_tools . extruders ) {
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if ( ( first_layer & & extruder_id = = m_wipe_tower_data . tool_ordering . all_extruders ( ) . back ( ) ) | | extruder_id ! = current_extruder_id ) {
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float volume_to_wipe = wipe_volumes [ current_extruder_id ] [ extruder_id ] ; // total volume to wipe after this toolchange
// Not all of that can be used for infill purging:
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volume_to_wipe - = ( float ) m_config . filament_minimal_purge_on_wipe_tower . get_at ( extruder_id ) ;
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// try to assign some infills/objects for the wiping:
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volume_to_wipe = layer_tools . wiping_extrusions ( ) . mark_wiping_extrusions ( * this , current_extruder_id , extruder_id , volume_to_wipe ) ;
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// add back the minimal amount toforce on the wipe tower:
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volume_to_wipe + = ( float ) m_config . filament_minimal_purge_on_wipe_tower . get_at ( extruder_id ) ;
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// request a toolchange at the wipe tower with at least volume_to_wipe purging amount
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wipe_tower . plan_toolchange ( ( float ) layer_tools . print_z , ( float ) layer_tools . wipe_tower_layer_height , current_extruder_id , extruder_id ,
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first_layer & & extruder_id = = m_wipe_tower_data . tool_ordering . all_extruders ( ) . back ( ) , volume_to_wipe ) ;
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current_extruder_id = extruder_id ;
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}
}
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layer_tools . wiping_extrusions ( ) . ensure_perimeters_infills_order ( * this ) ;
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if ( & layer_tools = = & m_wipe_tower_data . tool_ordering . back ( ) | | ( & layer_tools + 1 ) - > wipe_tower_partitions = = 0 )
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break ;
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}
}
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// Generate the wipe tower layers.
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m_wipe_tower_data . tool_changes . reserve ( m_wipe_tower_data . tool_ordering . layer_tools ( ) . size ( ) ) ;
wipe_tower . generate ( m_wipe_tower_data . tool_changes ) ;
m_wipe_tower_data . depth = wipe_tower . get_depth ( ) ;
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m_wipe_tower_data . brim_width = wipe_tower . get_brim_width ( ) ;
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// Unload the current filament over the purge tower.
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coordf_t layer_height = m_objects . front ( ) - > config ( ) . layer_height . value ;
if ( m_wipe_tower_data . tool_ordering . back ( ) . wipe_tower_partitions > 0 ) {
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// The wipe tower goes up to the last layer of the print.
if ( wipe_tower . layer_finished ( ) ) {
// The wipe tower is printed to the top of the print and it has no space left for the final extruder purge.
// Lift Z to the next layer.
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wipe_tower . set_layer ( float ( m_wipe_tower_data . tool_ordering . back ( ) . print_z + layer_height ) , float ( layer_height ) , 0 , false , true ) ;
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} else {
// There is yet enough space at this layer of the wipe tower for the final purge.
}
} else {
// The wipe tower does not reach the last print layer, perform the pruge at the last print layer.
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assert ( m_wipe_tower_data . tool_ordering . back ( ) . wipe_tower_partitions = = 0 ) ;
wipe_tower . set_layer ( float ( m_wipe_tower_data . tool_ordering . back ( ) . print_z ) , float ( layer_height ) , 0 , false , true ) ;
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}
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m_wipe_tower_data . final_purge = Slic3r : : make_unique < WipeTower : : ToolChangeResult > (
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wipe_tower . tool_change ( ( unsigned int ) ( - 1 ) ) ) ;
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m_wipe_tower_data . used_filament = wipe_tower . get_used_filament ( ) ;
m_wipe_tower_data . number_of_toolchanges = wipe_tower . get_number_of_toolchanges ( ) ;
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}
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// Generate a recommended G-code output file name based on the format template, default extension, and template parameters
// (timestamps, object placeholders derived from the model, current placeholder prameters and print statistics.
// Use the final print statistics if available, or just keep the print statistics placeholders if not available yet (before G-code is finalized).
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std : : string Print : : output_filename ( const std : : string & filename_base ) const
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{
// Set the placeholders for the data know first after the G-code export is finished.
// These values will be just propagated into the output file name.
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DynamicConfig config = this - > finished ( ) ? this - > print_statistics ( ) . config ( ) : this - > print_statistics ( ) . placeholders ( ) ;
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config . set_key_value ( " num_extruders " , new ConfigOptionInt ( ( int ) m_config . nozzle_diameter . size ( ) ) ) ;
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return this - > PrintBase : : output_filename ( m_config . output_filename_format . value , " .gcode " , filename_base , & config ) ;
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}
WIP: Nullable configuration value concept, implemented for
ConfigOptionFloatsNullable, ConfigOptionIntsNullable,
ConfigOptionPercentsNullable, ConfigOptionBoolsNullable.
retract override values were added to the Filament profile:
vector of floats: "retract_length", "retract_lift", "retract_lift_above",
"retract_lift_below", "retract_speed", "deretract_speed",
"retract_restart_extra", "retract_before_travel",
vector of bools: "retract_layer_change", "wipe"
vector of percents: "retract_before_wipe"
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DynamicConfig PrintStatistics : : config ( ) const
{
DynamicConfig config ;
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std : : string normal_print_time = short_time ( this - > estimated_normal_print_time ) ;
std : : string silent_print_time = short_time ( this - > estimated_silent_print_time ) ;
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config . set_key_value ( " print_time " , new ConfigOptionString ( normal_print_time ) ) ;
config . set_key_value ( " normal_print_time " , new ConfigOptionString ( normal_print_time ) ) ;
config . set_key_value ( " silent_print_time " , new ConfigOptionString ( silent_print_time ) ) ;
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config . set_key_value ( " used_filament " , new ConfigOptionFloat ( this - > total_used_filament / 1000. ) ) ;
config . set_key_value ( " extruded_volume " , new ConfigOptionFloat ( this - > total_extruded_volume ) ) ;
config . set_key_value ( " total_cost " , new ConfigOptionFloat ( this - > total_cost ) ) ;
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config . set_key_value ( " total_toolchanges " , new ConfigOptionInt ( this - > total_toolchanges ) ) ;
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config . set_key_value ( " total_weight " , new ConfigOptionFloat ( this - > total_weight ) ) ;
config . set_key_value ( " total_wipe_tower_cost " , new ConfigOptionFloat ( this - > total_wipe_tower_cost ) ) ;
config . set_key_value ( " total_wipe_tower_filament " , new ConfigOptionFloat ( this - > total_wipe_tower_filament ) ) ;
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return config ;
}
DynamicConfig PrintStatistics : : placeholders ( )
{
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DynamicConfig config ;
for ( const std : : string & key : {
" print_time " , " normal_print_time " , " silent_print_time " ,
" used_filament " , " extruded_volume " , " total_cost " , " total_weight " ,
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" total_toolchanges " , " total_wipe_tower_cost " , " total_wipe_tower_filament " } )
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config . set_key_value ( key , new ConfigOptionString ( std : : string ( " { " ) + key + " } " ) ) ;
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return config ;
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}
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std : : string PrintStatistics : : finalize_output_path ( const std : : string & path_in ) const
{
std : : string final_path ;
try {
boost : : filesystem : : path path ( path_in ) ;
DynamicConfig cfg = this - > config ( ) ;
PlaceholderParser pp ;
std : : string new_stem = pp . process ( path . stem ( ) . string ( ) , 0 , & cfg ) ;
final_path = ( path . parent_path ( ) / ( new_stem + path . extension ( ) . string ( ) ) ) . string ( ) ;
} catch ( const std : : exception & ex ) {
BOOST_LOG_TRIVIAL ( error ) < < " Failed to apply the print statistics to the export file name: " < < ex . what ( ) ;
final_path = path_in ;
}
return final_path ;
}
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} // namespace Slic3r