Wipe tower: remove a move to the wipe tower when not needed
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@ -238,8 +238,9 @@ namespace Slic3r {
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std::string tcr_rotated_gcode = post_process_wipe_tower_moves(tcr, wipe_tower_offset, wipe_tower_rotation);
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std::string tcr_rotated_gcode = post_process_wipe_tower_moves(tcr, wipe_tower_offset, wipe_tower_rotation);
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if (! tcr.priming) {
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if (gcodegen.config().single_extruder_multi_material && ! tcr.priming) {
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// Move over the wipe tower.
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// Move over the wipe tower. If this is not single-extruder MM, the first wipe tower move following the
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// toolchange will travel there anyway.
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gcode += gcodegen.retract();
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gcode += gcodegen.retract();
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gcodegen.m_avoid_crossing_perimeters.use_external_mp_once();
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gcodegen.m_avoid_crossing_perimeters.use_external_mp_once();
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gcode += gcodegen.travel_to(
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gcode += gcodegen.travel_to(
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@ -71,6 +71,8 @@ public:
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return *this;
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return *this;
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}
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}
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WipeTowerWriter& set_position(const Vec2f &pos) { m_current_pos = pos; return *this; }
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WipeTowerWriter& set_initial_tool(size_t tool) { m_current_tool = tool; return *this; }
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WipeTowerWriter& set_initial_tool(size_t tool) { m_current_tool = tool; return *this; }
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WipeTowerWriter& set_z(float z)
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WipeTowerWriter& set_z(float z)
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@ -803,9 +805,11 @@ void WipeTower::toolchange_Unload(
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float xl = cleaning_box.ld.x() + 1.f * m_perimeter_width;
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float xl = cleaning_box.ld.x() + 1.f * m_perimeter_width;
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float xr = cleaning_box.rd.x() - 1.f * m_perimeter_width;
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float xr = cleaning_box.rd.x() - 1.f * m_perimeter_width;
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const float line_width = m_perimeter_width * m_filpar[m_current_tool].ramming_line_width_multiplicator; // desired ramming line thickness
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const float line_width = m_perimeter_width * m_filpar[m_current_tool].ramming_line_width_multiplicator; // desired ramming line thickness
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const float y_step = line_width * m_filpar[m_current_tool].ramming_step_multiplicator * m_extra_spacing; // spacing between lines in mm
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const float y_step = line_width * m_filpar[m_current_tool].ramming_step_multiplicator * m_extra_spacing; // spacing between lines in mm
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const Vec2f ramming_start_pos = Vec2f(xl, cleaning_box.ld.y() + m_depth_traversed + y_step/2.f);
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writer.append("; CP TOOLCHANGE UNLOAD\n")
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writer.append("; CP TOOLCHANGE UNLOAD\n")
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.change_analyzer_line_width(line_width);
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.change_analyzer_line_width(line_width);
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@ -814,7 +818,10 @@ void WipeTower::toolchange_Unload(
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float remaining = xr - xl ; // keeps track of distance to the next turnaround
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float remaining = xr - xl ; // keeps track of distance to the next turnaround
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float e_done = 0; // measures E move done from each segment
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float e_done = 0; // measures E move done from each segment
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writer.travel(xl, cleaning_box.ld.y() + m_depth_traversed + y_step/2.f ); // move to starting position
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if (m_semm)
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writer.travel(ramming_start_pos); // move to starting position
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else
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writer.set_position(ramming_start_pos);
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// if the ending point of the ram would end up in mid air, align it with the end of the wipe tower:
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// if the ending point of the ram would end up in mid air, align it with the end of the wipe tower:
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if (m_layer_info > m_plan.begin() && m_layer_info < m_plan.end() && (m_layer_info-1!=m_plan.begin() || !m_adhesion )) {
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if (m_layer_info > m_plan.begin() && m_layer_info < m_plan.end() && (m_layer_info-1!=m_plan.begin() || !m_adhesion )) {
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@ -849,7 +856,7 @@ void WipeTower::toolchange_Unload(
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writer.disable_linear_advance();
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writer.disable_linear_advance();
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// now the ramming itself:
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// now the ramming itself:
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while (i < m_filpar[m_current_tool].ramming_speed.size())
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while (m_semm && i < m_filpar[m_current_tool].ramming_speed.size())
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{
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{
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const float x = volume_to_length(m_filpar[m_current_tool].ramming_speed[i] * 0.25f, line_width, m_layer_height);
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const float x = volume_to_length(m_filpar[m_current_tool].ramming_speed[i] * 0.25f, line_width, m_layer_height);
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const float e = m_filpar[m_current_tool].ramming_speed[i] * 0.25f / filament_area(); // transform volume per sec to E move;
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const float e = m_filpar[m_current_tool].ramming_speed[i] * 0.25f / filament_area(); // transform volume per sec to E move;
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@ -898,7 +905,7 @@ void WipeTower::toolchange_Unload(
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// Cooling:
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// Cooling:
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const int& number_of_moves = m_filpar[m_current_tool].cooling_moves;
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const int& number_of_moves = m_filpar[m_current_tool].cooling_moves;
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if (number_of_moves > 0) {
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if (m_semm && number_of_moves > 0) {
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const float& initial_speed = m_filpar[m_current_tool].cooling_initial_speed;
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const float& initial_speed = m_filpar[m_current_tool].cooling_initial_speed;
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const float& final_speed = m_filpar[m_current_tool].cooling_final_speed;
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const float& final_speed = m_filpar[m_current_tool].cooling_final_speed;
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@ -916,14 +923,20 @@ void WipeTower::toolchange_Unload(
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}
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}
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}
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}
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// let's wait is necessary:
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if (m_semm) {
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writer.wait(m_filpar[m_current_tool].delay);
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// let's wait is necessary:
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// we should be at the beginning of the cooling tube again - let's move to parking position:
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writer.wait(m_filpar[m_current_tool].delay);
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writer.retract(-m_cooling_tube_length/2.f+m_parking_pos_retraction-m_cooling_tube_retraction, 2000);
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// we should be at the beginning of the cooling tube again - let's move to parking position:
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writer.retract(-m_cooling_tube_length/2.f+m_parking_pos_retraction-m_cooling_tube_retraction, 2000);
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}
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// this is to align ramming and future wiping extrusions, so the future y-steps can be uniform from the start:
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// this is to align ramming and future wiping extrusions, so the future y-steps can be uniform from the start:
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// the perimeter_width will later be subtracted, it is there to not load while moving over just extruded material
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// the perimeter_width will later be subtracted, it is there to not load while moving over just extruded material
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writer.travel(end_of_ramming.x(), end_of_ramming.y() + (y_step/m_extra_spacing-m_perimeter_width) / 2.f + m_perimeter_width, 2400.f);
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Vec2f pos = Vec2f(end_of_ramming.x(), end_of_ramming.y() + (y_step/m_extra_spacing-m_perimeter_width) / 2.f + m_perimeter_width);
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if (m_semm)
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writer.travel(pos, 2400.f);
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else
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writer.set_position(pos);
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writer.resume_preview()
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writer.resume_preview()
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.flush_planner_queue();
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.flush_planner_queue();
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@ -290,7 +290,6 @@ private:
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// Extruder specific parameters.
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// Extruder specific parameters.
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std::vector<FilamentParameters> m_filpar;
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std::vector<FilamentParameters> m_filpar;
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// State of the wipe tower generator.
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// State of the wipe tower generator.
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unsigned int m_num_layer_changes = 0; // Layer change counter for the output statistics.
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unsigned int m_num_layer_changes = 0; // Layer change counter for the output statistics.
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unsigned int m_num_tool_changes = 0; // Tool change change counter for the output statistics.
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unsigned int m_num_tool_changes = 0; // Tool change change counter for the output statistics.
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