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修改部分参数

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Co-authored-by: Copilot <copilot@github.com>
This commit is contained in:
lhye200
2026-05-08 01:16:40 +08:00
parent 40b8cc8023
commit a26f7214f9
30 changed files with 341 additions and 3206 deletions
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432
all_keys.txt
View File

@@ -1,432 +0,0 @@
acceleration_limit_mess
acceleration_limit_mess_enable
accel_to_decel_enable
accel_to_decel_factor
activate_air_filtration
activate_chamber_temp_control
adaptive_layer_height
additional_cooling_fan_speed
after_layer_gcode
ai_infill
alternate_extra_wall
bed_shape
bed_type
before_layer_gcode
bottom_shell_layers
bottom_shell_thickness
bottom_solid_infill_flow_ratio
bottom_surface_pattern
bridge_acceleration
bridge_angle
bridge_density
bridge_flow
bridge_no_support
bridge_speed
brim_ears_detection_length
brim_ears_max_angle
brim_object_gap
brim_type
brim_width
chamber_temperature
close_fan_the_first_x_layers
compatible_printers_condition
complete_print_exhaust_fan_speed
cool_cds_fan_start_at_height
cooling_tube_length
cooling_tube_retraction
cool_plate_temp
cool_plate_temp_initial_layer
cool_special_cds_fan_speed
counterbore_hole_bridging
customized_plate_temp
customized_plate_temp_initial_layer
default_acceleration
default_filament_colour
default_jerk
deretract_speed
detect_narrow_internal_solid_infill
detect_overhang_wall
detect_thin_wall
dont_filter_internal_bridges
draft_shield
during_print_exhaust_fan_speed
elefant_foot_compensation
elefant_foot_compensation_layers
enable_arc_fitting
enable_overhang_bridge_fan
enable_overhang_speed
enable_pressure_advance
enable_prime_tower
enable_special_area_additional_cooling_fan
end_gcode
enforce_support_layers
eng_plate_temp
eng_plate_temp_initial_layer
ensure_vertical_shell_thickness
epoxy_resin_plate_temp
epoxy_resin_plate_temp_initial_layer
exclude_object
extra_loading_move
extra_perimeters_on_overhangs
extruder_clearance_height_to_lid
extruder_clearance_height_to_rod
extruder_clearance_radius
extruder_colour
extruder_offset
family
fan_cooling_layer_time
fan_max_speed
fan_min_speed
filament_cooling_final_speed
filament_cooling_initial_speed
filament_cooling_moves
filament_cost
filament_density
filament_deretraction_speed
filament_diameter
filament_end_gcode
filament_flow_ratio
filament_is_support
filament_loading_speed
filament_loading_speed_start
filament_load_time
filament_max_volumetric_speed
filament_minimal_purge_on_wipe_tower
filament_multitool_ramming
filament_multitool_ramming_flow
filament_multitool_ramming_volume
filament_notes
filament_ramming_parameters
filament_retract_before_wipe
filament_retraction_length
filament_retraction_minimum_travel
filament_retraction_speed
filament_retract_lift_above
filament_retract_lift_below
filament_retract_lift_enforce
filament_retract_restart_extra
filament_retract_when_changing_layer
filament_settings_id
filament_shrink
filament_shrinkage_compensation_z
filament_soluble
filament_start_gcode
filament_toolchange_delay
filament_type
filament_unloading_speed
filament_unloading_speed_start
filament_unload_time
filament_vendor
filament_wipe
filament_wipe_distance
filament_z_hop
filament_z_hop_types
filter_out_gap_fill
first_layer_bed_temperature
flush_into_infill
flush_into_objects
flush_into_support
full_fan_speed_layer
fuzzy_skin
fuzzy_skin_first_layer
fuzzy_skin_point_distance
fuzzy_skin_thickness
gap_fill_target
gap_infill_speed
gcode_add_line_number
gcode_comments
gcode_flavor
gcode_label_objects
high_current_on_filament_swap
hole_to_polyhole
hole_to_polyhole_threshold
hole_to_polyhole_twisted
hot_plate_temp
hot_plate_temp_initial_layer
idle_temperature
independent_support_layer_height
infill_anchor
infill_anchor_max
infill_combination
infill_direction
infill_jerk
infill_wall_overlap
initial_layer_acceleration
initial_layer_infill_speed
initial_layer_jerk
initial_layer_line_width
initial_layer_min_bead_width
initial_layer_print_height
initial_layer_speed
initial_layer_travel_speed
inner_wall_acceleration
inner_wall_jerk
inner_wall_line_width
inner_wall_speed
interface_shells
internal_bridge_flow
internal_bridge_speed
internal_solid_infill_acceleration
internal_solid_infill_line_width
internal_solid_infill_pattern
internal_solid_infill_speed
ironing_angle
ironing_flow
ironing_pattern
ironing_spacing
ironing_speed
ironing_support_layer
ironing_type
is_infill_first
layer_height
line_width
machine_limits_usage
machine_max_acceleration_e
machine_max_acceleration_extruding
machine_max_acceleration_retracting
machine_max_acceleration_travel
machine_max_acceleration_x
machine_max_acceleration_y
machine_max_acceleration_z
machine_max_jerk_e
machine_max_jerk_x
machine_max_jerk_y
machine_max_jerk_z
machine_max_speed_e
machine_max_speed_x
machine_max_speed_y
machine_max_speed_z
machine_min_extruding_rate
machine_min_travel_rate
make_overhang_printable
make_overhang_printable_angle
make_overhang_printable_hole_size
material_flow_dependent_temperature
material_flow_temp_graph
material_type
max_bridge_length
max_layer_height
max_print_height
max_travel_detour_distance
max_volumetric_extrusion_rate_slope
max_volumetric_extrusion_rate_slope_segment_length
min_bead_width
min_feature_size
minimum_sparse_infill_area
minimum_support_area
min_layer_height
min_length_factor
min_width_top_surface
mmu_segmented_region_interlocking_depth
mmu_segmented_region_max_width
nozzle_diameter
nozzle_temperature
nozzle_temperature_initial_layer
nozzle_temperature_range_high
nozzle_temperature_range_low
only_one_wall_first_layer
only_one_wall_top
ooze_prevention
outer_wall_acceleration
outer_wall_jerk
outer_wall_line_width
outer_wall_speed
overhang_1_4_speed
overhang_2_4_speed
overhang_3_4_speed
overhang_4_4_speed
overhang_fan_speed
overhang_fan_threshold
overhang_reverse
overhang_reverse_internal_only
overhang_reverse_threshold
overhang_speed_classic
parking_pos_retraction
pause_print_gcode
precise_outer_wall
pressure_advance
prime_tower_brim_width
prime_tower_enhance_type
prime_tower_width
prime_volume
printer_model
printer_technology
printer_variant
print_flow_ratio
print_order
print_sequence
print_settings_id
raft_contact_distance
raft_expansion
raft_first_layer_density
raft_first_layer_expansion
raft_layers
reduce_crossing_wall
reduce_fan_stop_start_freq
reduce_infill_retraction
required_nozzle_HRC
resolution
retract_before_travel
retract_before_wipe
retract_layer_change
retract_length
retract_length_toolchange
retract_lift_above
retract_lift_below
retract_restart_extra
retract_restart_extra_toolchange
retract_speed
role_based_wipe_speed
scarf_angle_threshold
scarf_joint_flow_ratio
scarf_joint_speed
scarf_overhang_threshold
seam_gap
seam_position
seam_slope_conditional
seam_slope_entire_loop
seam_slope_inner_walls
seam_slope_min_length
seam_slope_start_height
seam_slope_steps
seam_slope_type
show_name
silent_mode
single_extruder_multi_material
single_extruder_multi_material_priming
skirt_distance
skirt_height
skirt_loops
skirt_speed
slice_closing_radius
slicing_mode
slowdown_for_curled_perimeters
slow_down_for_layer_cooling
slow_down_layers
slow_down_layer_time
slow_down_min_speed
small_area_infill_flow_compensation
small_area_infill_flow_compensation_model
small_perimeter_speed
small_perimeter_threshold
solid_infill_filament
sparse_infill_acceleration
sparse_infill_density
sparse_infill_filament
sparse_infill_line_width
sparse_infill_pattern
sparse_infill_speed
speed_limit_to_height
speed_limit_to_height_enable
spiral_mode
spiral_mode_max_xy_smoothing
spiral_mode_smooth
staggered_inner_seams
standby_temperature_delta
start_filament_gcode
start_gcode
support_angle
support_base_pattern
support_base_pattern_spacing
support_bottom_interface_spacing
support_bottom_z_distance
support_critical_regions_only
support_expansion
support_interface_bottom_layers
support_interface_filament
support_interface_loop_pattern
support_interface_not_for_body
support_interface_pattern
support_interface_spacing
support_interface_speed
support_interface_top_layers
support_line_width
support_material
support_material_angle
support_material_auto
support_material_bottom_interface_layers
support_material_extrusion_width
support_material_interface_extruder
support_material_interface_fan_speed
support_material_pattern
support_material_spacing
support_material_speed
support_material_style
support_material_threshold
support_material_xy_spacing
support_object_xy_distance
support_on_build_plate_only
support_remove_small_overhang
support_speed
support_threshold_angle
support_top_z_distance
support_tree_angle
support_tree_angle_slow
support_tree_branch_diameter
support_tree_branch_diameter_angle
support_tree_branch_diameter_double_wall
support_tree_branch_distance
support_tree_tip_diameter
support_tree_top_rate
support_type
support_xy_overrides_z
temperature_vitrification
textured_plate_temp
textured_plate_temp_initial_layer
thick_bridges
thick_internal_bridges
timelapse_type
top_shell_layers
top_shell_thickness
top_solid_infill_flow_ratio
top_surface_acceleration
top_surface_jerk
top_surface_line_width
top_surface_pattern
top_surface_speed
travel_acceleration
travel_jerk
travel_speed
travel_speed_z
tree_support_adaptive_layer_height
tree_support_angle_slow
tree_support_auto_brim
tree_support_branch_angle
tree_support_branch_angle_organic
tree_support_branch_diameter
tree_support_branch_diameter_angle
tree_support_branch_diameter_double_wall
tree_support_branch_diameter_organic
tree_support_branch_distance
tree_support_branch_distance_organic
tree_support_brim_width
tree_support_tip_diameter
tree_support_top_rate
tree_support_wall_count
use_firmware_retraction
use_relative_e_distances
wall_direction
wall_distribution_count
wall_filament
wall_generator
wall_infill_order
wall_loops
wall_sequence
wall_transition_angle
wall_transition_filter_deviation
wall_transition_length
wipe
wipe_before_external_loop
wipe_on_loops
wipe_speed
wipe_tower_bridging
wipe_tower_cone_angle
wipe_tower_extra_spacing
wipe_tower_no_sparse_layers
wipe_tower_rotation_angle
wiping_volumes_extruders
xy_contour_compensation
xy_hole_compensation
z_hop
z_hop_types
z_offset

1
app/__init__.py
View File

@@ -57,6 +57,7 @@ def create_app():
app.config['SQLALCHEMY_DATABASE_URI'] = 'sqlite:///../instance/aio_3d.db' app.config['SQLALCHEMY_DATABASE_URI'] = 'sqlite:///../instance/aio_3d.db'
app.config['SQLALCHEMY_ENGINE_OPTIONS'] = {'connect_args': {'timeout': 15}} app.config['SQLALCHEMY_ENGINE_OPTIONS'] = {'connect_args': {'timeout': 15}}
app.config['UPLOAD_FOLDER'] = os.path.abspath(os.path.join(app.root_path, '..', 'uploads')) app.config['UPLOAD_FOLDER'] = os.path.abspath(os.path.join(app.root_path, '..', 'uploads'))
app.config['PRINT_CONFIG_FOLDER'] = os.path.abspath(os.path.join(app.root_path, '..', 'print_config'))
os.makedirs(app.config['UPLOAD_FOLDER'], exist_ok=True) os.makedirs(app.config['UPLOAD_FOLDER'], exist_ok=True)

14
app/routes/admin_routes.py
View File

@@ -47,6 +47,7 @@ def settings():
default_support_pattern = request.form.get('default_support_pattern', 'tree') default_support_pattern = request.form.get('default_support_pattern', 'tree')
default_quality = request.form.get('default_quality', 'base_global_standard.inst.cfg') default_quality = request.form.get('default_quality', 'base_global_standard.inst.cfg')
default_material = request.form.get('default_material', '') default_material = request.form.get('default_material', '')
default_printer = request.form.get('default_printer', '')
gcode_upload_folder = request.form.get('gcode_upload_folder', '').strip() gcode_upload_folder = request.form.get('gcode_upload_folder', '').strip()
slicer_engine = request.form.get('slicer_engine', 'cura') slicer_engine = request.form.get('slicer_engine', 'cura')
build_plate_model_path = request.form.get('build_plate_model_path', '').strip() build_plate_model_path = request.form.get('build_plate_model_path', '').strip()
@@ -61,6 +62,7 @@ def settings():
('default_support_pattern', default_support_pattern), ('default_support_pattern', default_support_pattern),
('default_quality', default_quality), ('default_quality', default_quality),
('default_material', default_material), ('default_material', default_material),
('default_printer', default_printer),
('gcode_upload_folder', gcode_upload_folder), ('gcode_upload_folder', gcode_upload_folder),
('slicer_engine', slicer_engine), ('slicer_engine', slicer_engine),
('build_plate_model_path', build_plate_model_path), ('build_plate_model_path', build_plate_model_path),
@@ -187,15 +189,5 @@ def delete_user(user_id):
flash(f'User {user.username} and all their files have been deleted.', 'success') flash(f'User {user.username} and all their files have been deleted.', 'success')
return redirect(url_for('admin.users')) return redirect(url_for('admin.users'))
def get_bed_dimensions():
try:
path = os.path.join(current_app.root_path, '..', 'print_config', 'printers', 'creality_ender3v3se.def.json')
with open(path, 'r', encoding='utf-8') as f:
data = json.load(f)
w = data['overrides']['machine_width']['default_value']
h = data['overrides']['machine_depth']['default_value']
hd = data['overrides']['machine_height']['default_value']
return w, h, hd
except:
return 200, 200, 200

41
app/routes/main_routes.py
View File

@@ -14,19 +14,19 @@ from app import i18n_dict
# import trimesh.repair # import trimesh.repair
from app.utils.stl_simplifier import simplify_stl from app.utils.stl_simplifier import simplify_stl
from app.routes.admin_routes import get_gcode_dir from app.routes.admin_routes import get_gcode_dir
from app.utils.slice_engines import get_slicer_engine
from app.models import UserSession
from flask_login import logout_user
main_bp = Blueprint('main', __name__) main_bp = Blueprint('main', __name__)
@main_bp.before_app_request @main_bp.before_app_request
def check_user_session(): def check_user_session():
if current_user.is_authenticated and not current_user.is_guest: if current_user.is_authenticated and not current_user.is_guest:
from app.models import UserSession
session_token = session.get('user_session_token') session_token = session.get('user_session_token')
if session_token: if session_token:
user_session = UserSession.query.filter_by(session_token=session_token).first() user_session = UserSession.query.filter_by(session_token=session_token).first()
if not user_session or not user_session.is_active: if not user_session or not user_session.is_active:
from flask_login import logout_user
logout_user() logout_user()
session.pop('user_session_token', None) session.pop('user_session_token', None)
flash('Your session has been terminated.', 'warning') flash('Your session has been terminated.', 'warning')
@@ -306,7 +306,10 @@ def preview_gcode(file_id):
if line_count > 500: if line_count > 500:
content += f"\n... \n[Preview truncated. Total lines: {line_count}. Please download to view full file.]" content += f"\n... \n[Preview truncated. Total lines: {line_count}. Please download to view full file.]"
w, h, hd = get_bed_dimensions() engine_name = SystemConfig.query.filter_by(key='slicer_engine').first()
if engine_name:
engine = get_slicer_engine(str(engine_name.value), current_app.config['PRINT_CONFIG_FOLDER'])
w, h, hd = engine.get_bed_dimensions()
configs = {c.key: c.value for c in SystemConfig.query.all()} configs = {c.key: c.value for c in SystemConfig.query.all()}
offset_x = float(configs.get('offset_x', '0.0')) offset_x = float(configs.get('offset_x', '0.0'))
offset_y = float(configs.get('offset_y', '0.0')) offset_y = float(configs.get('offset_y', '0.0'))
@@ -344,25 +347,17 @@ def delete_file(file_id):
# --- Auth Routes --- # --- Auth Routes ---
def get_bed_dimensions():
try:
path = os.path.join(current_app.root_path, '..', 'print_config', 'printers', 'creality_ender3v3se.def.json')
with open(path, 'r', encoding='utf-8') as f:
data = json.load(f)
w = data['overrides']['machine_width']['default_value']
h = data['overrides']['machine_depth']['default_value']
hd = data['overrides']['machine_height']['default_value']
return w, h, hd
except:
return 200, 200, 200
@main_bp.route('/plater') @main_bp.route('/plater')
@login_required @login_required
def plater(): def plater():
quota_mb, current_size = get_quota_info(current_user, 'gcode') quota_mb, current_size = get_quota_info(current_user, 'gcode')
quota_exceeded = (quota_mb > 0 and current_size >= quota_mb * 1024 * 1024) quota_exceeded = (quota_mb > 0 and current_size >= quota_mb * 1024 * 1024)
w, h, hd = get_bed_dimensions() engine_name = SystemConfig.query.filter_by(key='slicer_engine').first()
if engine_name:
engine = get_slicer_engine(str(engine_name.value), current_app.config['PRINT_CONFIG_FOLDER'])
w, h, hd = engine.get_bed_dimensions()
print(f"Bed dimensions: {w}x{h}x{hd}")
configs = {c.key: c.value for c in SystemConfig.query.all()} configs = {c.key: c.value for c in SystemConfig.query.all()}
@@ -574,12 +569,12 @@ def build_plate_model():
@main_bp.route('/api/engine_options/<engine_name>') @main_bp.route('/api/engine_options/<engine_name>')
@login_required @login_required
def engine_options(engine_name): def engine_options(engine_name):
from app.utils.slice_engines import get_slicer_engine engine = get_slicer_engine(engine_name, current_app.config['PRINT_CONFIG_FOLDER'])
engine = get_slicer_engine(engine_name) presets = engine.get_quality_presets()
presets = engine.get_quality_presets(current_app) patterns = engine.get_support_patterns()
patterns = engine.get_support_patterns(current_app) materials = engine.get_materials() if hasattr(engine, 'get_materials') else []
materials = engine.get_materials(current_app) if hasattr(engine, 'get_materials') else [] printers = engine.get_all_printers() if hasattr(engine, 'get_all_printers') else []
return jsonify({'presets': presets, 'support_patterns': patterns, 'materials': materials}) return jsonify({'presets': presets, 'support_patterns': patterns, 'materials': materials, 'printers': printers})
@main_bp.route('/account', methods=['GET', 'POST']) @main_bp.route('/account', methods=['GET', 'POST'])
@login_required @login_required

88
app/routes/printer_routes.py
View File

@@ -19,6 +19,17 @@ def get_octo_client():
return OctoPrintClient(url.value, apikey.value) return OctoPrintClient(url.value, apikey.value)
return None return None
def _enrich_job_data(job_data):
if job_data and job_data.get('job', {}).get('file', {}).get('name'):
from app.models import PrintFile
internal_name = job_data['job']['file']['name']
print_file = PrintFile.query.filter_by(filename=internal_name).first()
if print_file and print_file.original_filename:
job_data['job']['file']['display_name'] = print_file.original_filename
else:
job_data['job']['file']['display_name'] = internal_name
return job_data
@printer_bp.route('/status') @printer_bp.route('/status')
@login_required @login_required
def status(): def status():
@@ -29,7 +40,7 @@ def status():
if client: if client:
try: try:
status_data = client.get_printer_status() status_data = client.get_printer_status()
job_data = client.get_job_info() job_data = _enrich_job_data(client.get_job_info())
except Exception as e: except Exception as e:
error = str(e) error = str(e)
else: else:
@@ -37,6 +48,20 @@ def status():
return render_template('printer/status.html', status=status_data, job=job_data, error=error) return render_template('printer/status.html', status=status_data, job=job_data, error=error)
@printer_bp.route('/api/status_data')
@login_required
def api_status_data():
client = get_octo_client()
if client:
try:
status_data = client.get_printer_status()
job_data = _enrich_job_data(client.get_job_info())
return jsonify({'success': True, 'status': status_data, 'job': job_data})
except Exception as e:
return jsonify({'success': False, 'error': str(e)})
return jsonify({'success': False, 'error': 'OctoPrint is not configured.'})
def get_gcode_dir(): def get_gcode_dir():
conf = SystemConfig.query.filter_by(key='gcode_upload_folder').first() conf = SystemConfig.query.filter_by(key='gcode_upload_folder').first()
if conf and conf.value and os.path.exists(conf.value): if conf and conf.value and os.path.exists(conf.value):
@@ -102,13 +127,45 @@ def prepare():
return render_template('printer/prepare.html', files=files, error=error) return render_template('printer/prepare.html', files=files, error=error)
def check_printer_control_permission(client):
from flask_login import current_user
if current_user.is_admin:
return True, None
try:
status_data = client.get_printer_status()
state = status_data.get('state', {}).get('text', '')
active_states = ['Printing', 'Paused', 'Pausing', 'Resuming', 'Cancelling']
if state not in active_states:
return True, None
job_info = client.get_job_info()
internal_name = job_info.get('job', {}).get('file', {}).get('name')
if not internal_name:
return False, "现在有任务正在运行,非管理员无法进行控制。"
from app.models import PrintFile
pf = PrintFile.query.filter_by(filename=internal_name).first()
if pf and pf.user_id == current_user.id:
return True, None
else:
return False, "现在有任务正在运行,您无权进行此操作。只有管理员或任务发起者可以进行控制。"
except Exception:
pass
return True, None
@printer_bp.route('/api/print_file', methods=['POST']) @printer_bp.route('/api/print_file', methods=['POST'])
@login_required @login_required
def api_print_file(): def api_print_file():
path = request.json.get('path') path = request.json.get('path')
location = request.json.get('origin', 'local') location = request.json.get('origin', 'local')
client = get_octo_client() client = get_octo_client()
if client and path: if client and path:
allowed, err_msg = check_printer_control_permission(client)
if not allowed:
return jsonify({"success": False, "error": err_msg})
try: try:
client.select_file(location, path, print_after_select=True) client.select_file(location, path, print_after_select=True)
return jsonify({"success": True}) return jsonify({"success": True})
@@ -117,14 +174,34 @@ def api_print_file():
return jsonify({"success": False, "error": "Not configured or missing path"}) return jsonify({"success": False, "error": "Not configured or missing path"})
@printer_bp.route('/control') @printer_bp.route('/control')
@login_required
def control(): def control():
client = get_octo_client() client = get_octo_client()
webcam_url = None webcam_url = None
error = None error = None
if client: if client:
try: try:
webcam_url = client.get_webcam_stream_url() raw_url = client.get_webcam_stream_url()
# If it's an absolute url pointing to the base url, strip it or proxy it via octo_proxy
from urllib.parse import urlparse, urlencode
parsed_raw = urlparse(raw_url)
base_config = SystemConfig.query.filter_by(key='octoprint_url').first()
if base_config and base_config.value:
base_url = base_config.value.rstrip('/')
parsed_base = urlparse(base_url)
# If they share the same host, replace with proxy
# Usually OctoPrint webcam streams are on the same host or relative
path = parsed_raw.path
if path.startswith('/'):
path = path[1:]
query = parsed_raw.query
# build proxy url
if query:
webcam_url = url_for('printer.octo_proxy', path=path) + '?' + query
else:
webcam_url = url_for('printer.octo_proxy', path=path)
else:
webcam_url = raw_url
except Exception as e: except Exception as e:
error = str(e) error = str(e)
else: else:
@@ -137,6 +214,9 @@ def api_command():
cmd = request.json.get('command') cmd = request.json.get('command')
client = get_octo_client() client = get_octo_client()
if client and cmd: if client and cmd:
allowed, err_msg = check_printer_control_permission(client)
if not allowed:
return jsonify({"success": False, "error": err_msg})
try: try:
if cmd == 'home': if cmd == 'home':
client.home_axes() client.home_axes()
@@ -246,7 +326,7 @@ def octo_embed():
@printer_bp.route('/proxy/<path:path>', methods=['GET', 'POST', 'PUT', 'DELETE', 'PATCH']) @printer_bp.route('/proxy/<path:path>', methods=['GET', 'POST', 'PUT', 'DELETE', 'PATCH'])
@login_required @login_required
def octo_proxy(path): def octo_proxy(path):
if not current_user.is_admin: if current_user.is_guest:
return "Unauthorized", 403 return "Unauthorized", 403
url_config = SystemConfig.query.filter_by(key='octoprint_url').first() url_config = SystemConfig.query.filter_by(key='octoprint_url').first()

19
app/templates/admin/settings.html
View File

@@ -41,6 +41,14 @@
<div class="form-text"><i class="bi bi-info-circle me-1"></i>{{ _('Absolute path to a custom build plate STL model to show in the plater. Leave empty to use none.') }}</div> <div class="form-text"><i class="bi bi-info-circle me-1"></i>{{ _('Absolute path to a custom build plate STL model to show in the plater. Leave empty to use none.') }}</div>
</div> </div>
<div class="mb-3">
<label for="default_printer" class="form-label">{{ _('Default Printer Profile') }}</label>
<select class="form-select" name="default_printer" id="default_printer" data-selected="{{ configs.get('default_printer', '') }}">
<!-- Loaded via JS -->
</select>
<div class="form-text"><i class="bi bi-info-circle me-1"></i>{{ _('Main configuration for the printer dimensions, limits and base profiles.') }}</div>
</div>
<div class="mb-3"> <div class="mb-3">
<label for="default_infill" class="form-label">{{ _('Default Infill Density (%)') }}</label> <label for="default_infill" class="form-label">{{ _('Default Infill Density (%)') }}</label>
<input type="number" class="form-control" name="default_infill" id="default_infill" value="{{ configs.get('default_infill', '20') }}" min="0" max="100"> <input type="number" class="form-control" name="default_infill" id="default_infill" value="{{ configs.get('default_infill', '20') }}" min="0" max="100">
@@ -160,11 +168,22 @@ document.addEventListener('DOMContentLoaded', function() {
const qualitySelect = document.getElementById('default_quality'); const qualitySelect = document.getElementById('default_quality');
const materialSelect = document.getElementById('default_material'); const materialSelect = document.getElementById('default_material');
const patternSelect = document.getElementById('default_support_pattern'); const patternSelect = document.getElementById('default_support_pattern');
const printerSelect = document.getElementById('default_printer');
function updateOptions(engine) { function updateOptions(engine) {
fetch(`/api/engine_options/${engine}`) fetch(`/api/engine_options/${engine}`)
.then(res => res.json()) .then(res => res.json())
.then(data => { .then(data => {
const selPtr = printerSelect.getAttribute('data-selected');
printerSelect.innerHTML = '';
if(data.printers) {
data.printers.forEach(p => {
const opt = document.createElement('option');
opt.value = p.id; opt.textContent = p.name;
printerSelect.appendChild(opt);
});
}
if(selPtr) printerSelect.value = selPtr;
const selQ = qualitySelect.getAttribute('data-selected'); const selQ = qualitySelect.getAttribute('data-selected');
qualitySelect.innerHTML = ''; qualitySelect.innerHTML = '';
data.presets.forEach(p => { data.presets.forEach(p => {

4
app/templates/base.html
View File

@@ -107,13 +107,13 @@
<i class="bi bi-arrows-move me-2"></i>{{ _('Control') }} <i class="bi bi-arrows-move me-2"></i>{{ _('Control') }}
</a> </a>
</li> </li>
{% if current_user.is_authenticated and not current_user.is_guest %} <!-- {% if current_user.is_authenticated and not current_user.is_guest %}
<li class="nav-item mb-1"> <li class="nav-item mb-1">
<a class="nav-link text-dark {% if request.endpoint == 'main.account' %}active text-white shadow-sm{% endif %}" href="{{ url_for('main.account') }}"> <a class="nav-link text-dark {% if request.endpoint == 'main.account' %}active text-white shadow-sm{% endif %}" href="{{ url_for('main.account') }}">
<i class="bi bi-person-badge me-2"></i>{{ _('Account Management') }} <i class="bi bi-person-badge me-2"></i>{{ _('Account Management') }}
</a> </a>
</li> </li>
{% endif %} {% endif %} -->
</ul> </ul>
{% if current_user.is_authenticated and current_user.is_admin %} {% if current_user.is_authenticated and current_user.is_admin %}

9
app/templates/printer/control.html
View File

@@ -17,8 +17,15 @@
<div class="card-header bg-dark text-light fw-bold rounded-top"> <div class="card-header bg-dark text-light fw-bold rounded-top">
<i class="bi bi-camera-video me-1"></i>{{ _('Live Webcam') }} <i class="bi bi-camera-video me-1"></i>{{ _('Live Webcam') }}
</div> </div>
<div class="card-body p-0 ratio ratio-16x9"> <div class="card-body p-0 ratio ratio-16x9 bg-secondary bg-opacity-25 d-flex align-items-center justify-content-center">
{% if current_user.is_guest %}
<div class="text-center text-dark">
<i class="bi bi-lock-fill display-4 d-block mb-3"></i>
<h5 class="mb-0">{{ _('Please login to view the webcam stream.') }}</h5>
</div>
{% else %}
<img src="{{ webcam_url }}" alt="{{ _('Loading webcam stream...') }}" class="w-100 h-100 object-fit-cover"> <img src="{{ webcam_url }}" alt="{{ _('Loading webcam stream...') }}" class="w-100 h-100 object-fit-cover">
{% endif %}
</div> </div>
</div> </div>
</div> </div>

68
app/templates/printer/status.html
View File

@@ -21,7 +21,7 @@
<i class="bi bi-info-circle me-1"></i>{{ _('Current State') }} <i class="bi bi-info-circle me-1"></i>{{ _('Current State') }}
</div> </div>
<div class="card-body text-center"> <div class="card-body text-center">
<h3 class="display-6 mt-3 text-primary">{{ status.get('state', {}).get('text', 'Unknown') }}</h3> <h3 class="display-6 mt-3 text-primary" id="printer-state-text">{{ status.get('state', {}).get('text', 'Unknown') if status else 'Unknown' }}</h3>
</div> </div>
</div> </div>
</div> </div>
@@ -33,43 +33,42 @@
<i class="bi bi-thermometer-half me-1"></i>{{ _('Temperatures') }} <i class="bi bi-thermometer-half me-1"></i>{{ _('Temperatures') }}
</div> </div>
<div class="card-body"> <div class="card-body">
{% set temps = status.get('temperature', {}) %} {% set temps = status.get('temperature', {}) if status else {} %}
<h5 class="mb-1"><i class="bi bi-fire text-danger me-2"></i>{{ _('Tool/Nozzle') }}</h5> <h5 class="mb-1"><i class="bi bi-fire text-danger me-2"></i>{{ _('Tool/Nozzle') }}</h5>
<h4 class="ms-4 mb-4"> <h4 class="ms-4 mb-4">
{{ temps.get('tool0', {}).get('actual', 0) }} °C <span id="tool-actual">{{ temps.get('tool0', {}).get('actual', 0) }}</span> °C
<small class="text-muted fs-6">/ {{ temps.get('tool0', {}).get('target', 0) }} °C</small> <small class="text-muted fs-6">/ <span id="tool-target">{{ temps.get('tool0', {}).get('target', 0) }}</span> °C</small>
</h4> </h4>
<h5 class="mb-1"><i class="bi bi-square-fill text-warning me-2"></i>{{ _('Bed') }}</h5> <h5 class="mb-1"><i class="bi bi-square-fill text-warning me-2"></i>{{ _('Bed') }}</h5>
<h4 class="ms-4"> <h4 class="ms-4">
{{ temps.get('bed', {}).get('actual', 0) }} °C <span id="bed-actual">{{ temps.get('bed', {}).get('actual', 0) }}</span> °C
<small class="text-muted fs-6">/ {{ temps.get('bed', {}).get('target', 0) }} °C</small> <small class="text-muted fs-6">/ <span id="bed-target">{{ temps.get('bed', {}).get('target', 0) }}</span> °C</small>
</h4> </h4>
</div> </div>
</div> </div>
</div> </div>
</div> </div>
{% if job and job.get('job', {}).get('file', {}).get('name') %} <div class="card shadow-sm mt-4 border-success" id="active-job-card" style="display: {% if job and job.get('job', {}).get('file', {}).get('name') %}block{% else %}none{% endif %};">
<div class="card shadow-sm mt-4 border-success">
<div class="card-header bg-success text-white fw-bold"> <div class="card-header bg-success text-white fw-bold">
<i class="bi bi-play-circle me-1"></i>{{ _('Active Print Job') }} <i class="bi bi-play-circle me-1"></i>{{ _('Active Print Job') }}
</div> </div>
<div class="card-body"> <div class="card-body">
<h5>{{ job.get('job', {}).get('file', {}).get('name') }}</h5> <h5 id="job-file-name">{{ job.get('job', {}).get('file', {}).get('display_name') or job.get('job', {}).get('file', {}).get('name') if job else '' }}</h5>
{% set progress = job.get('progress', {}).get('completion', 0) %} {% set progress = job.get('progress', {}).get('completion', 0) if job else 0 %}
{% if progress == None %}{% set progress = 0 %}{% endif %} {% if progress == None %}{% set progress = 0 %}{% endif %}
<div class="progress mt-3 mb-2" style="height: 25px;"> <div class="progress mt-3 mb-2" style="height: 25px;">
<div class="progress-bar progress-bar-striped progress-bar-animated bg-success" role="progressbar" style="width: {{ progress }}%;" aria-valuenow="{{ progress }}" aria-valuemin="0" aria-valuemax="100"> <div id="job-progress-bar" class="progress-bar progress-bar-striped progress-bar-animated bg-success" role="progressbar" style="width: {{ progress }}%;" aria-valuenow="{{ progress }}" aria-valuemin="0" aria-valuemax="100">
{{ "%.1f"|format(progress) }}% <span id="job-progress-text">{{ "%.1f"|format(progress) }}%</span>
</div> </div>
</div> </div>
<div class="d-flex justify-content-between text-muted small mt-2"> <div class="d-flex justify-content-between text-muted small mt-2">
<span><strong>{{ _('Print Time:') }}</strong> {{ job.get('progress', {}).get('printTime', 0) }}s</span> <span><strong>{{ _('Print Time:') }}</strong> <span id="job-print-time">{{ job.get('progress', {}).get('printTime', 0) if job else 0 }}</span>s</span>
<span><strong>{{ _('Time Left:') }}</strong> {{ job.get('progress', {}).get('printTimeLeft', 0) }}s</span> <span><strong>{{ _('Time Left:') }}</strong> <span id="job-time-left">{{ job.get('progress', {}).get('printTimeLeft', 0) if job else 0 }}</span>s</span>
</div> </div>
<div class="mt-4 gap-2 d-flex"> <div class="mt-4 gap-2 d-flex">
@@ -78,11 +77,47 @@
</div> </div>
</div> </div>
</div> </div>
{% endif %}
{% endif %} {% endif %}
<script> <script>
function updateStatus() {
fetch('{{ url_for("printer.api_status_data") }}')
.then(res => res.json())
.then(data => {
if(data.success) {
if(data.status && data.status.state) {
document.getElementById('printer-state-text').innerText = data.status.state.text || 'Unknown';
}
if(data.status && data.status.temperature) {
const tool = data.status.temperature.tool0 || {};
const bed = data.status.temperature.bed || {};
document.getElementById('tool-actual').innerText = tool.actual !== undefined ? tool.actual : 0;
document.getElementById('tool-target').innerText = tool.target !== undefined ? tool.target : 0;
document.getElementById('bed-actual').innerText = bed.actual !== undefined ? bed.actual : 0;
document.getElementById('bed-target').innerText = bed.target !== undefined ? bed.target : 0;
}
const jobCard = document.getElementById('active-job-card');
if(data.job && data.job.job && data.job.job.file && data.job.job.file.name) {
jobCard.style.display = 'block';
document.getElementById('job-file-name').innerText = data.job.job.file.display_name || data.job.job.file.name;
let progress = data.job.progress && data.job.progress.completion ? data.job.progress.completion : 0;
document.getElementById('job-progress-bar').style.width = progress + '%';
document.getElementById('job-progress-bar').setAttribute('aria-valuenow', progress);
document.getElementById('job-progress-text').innerText = progress.toFixed(1) + '%';
document.getElementById('job-print-time').innerText = data.job.progress ? (data.job.progress.printTime || 0) : 0;
document.getElementById('job-time-left').innerText = data.job.progress ? (data.job.progress.printTimeLeft || 0) : 0;
} else {
jobCard.style.display = 'none';
}
}
})
.catch(err => console.error("Error fetching status:", err));
}
{% if not error %}
setInterval(updateStatus, 1000);
{% endif %}
function sendCmd(cmd) { function sendCmd(cmd) {
if(cmd === 'cancel') { if(cmd === 'cancel') {
window.customConfirm("{{ _('Are you sure you want to cancel the print?') }}", () => doSendCmd(cmd)); window.customConfirm("{{ _('Are you sure you want to cancel the print?') }}", () => doSendCmd(cmd));
@@ -99,12 +134,11 @@ function doSendCmd(cmd) {
.then(res => res.json()) .then(res => res.json())
.then(data => { .then(data => {
if(data.success) { if(data.success) {
window.location.reload(); updateStatus();
} else { } else {
window.customAlert("Error: " + data.error); window.customAlert("Error: " + data.error);
} }
}); });
} }
setTimeout(() => { if (!window.pauseRefresh) window.location.reload(); }, 15000);
</script> </script>
{% endblock %} {% endblock %}

8
app/utils/slice_engines/__init__.py
View File

@@ -8,7 +8,7 @@ def get_all_engines():
PrusaSlicerEngine() PrusaSlicerEngine()
] ]
def get_slicer_engine(engine_name="cura"): def get_slicer_engine(engine_name="prusa", print_config_folder=None):
""" """
Factory function to retrieve the requested slicing engine instance. Factory function to retrieve the requested slicing engine instance.
Valid names: 'cura', 'prusa_slicer' Valid names: 'cura', 'prusa_slicer'
@@ -16,9 +16,9 @@ def get_slicer_engine(engine_name="cura"):
engine_name = engine_name.lower().strip() engine_name = engine_name.lower().strip()
if engine_name in ['cura', 'cura_engine', 'curaengine']: if engine_name in ['cura', 'cura_engine', 'curaengine']:
return CuraEngine() return CuraEngine(print_config_folder)
elif engine_name in ['prusa', 'prusa_slicer', 'prusaslicer']: elif engine_name in ['prusa', 'prusa_slicer', 'prusaslicer']:
return PrusaSlicerEngine() return PrusaSlicerEngine(print_config_folder)
else: else:
# Default fallback # Default fallback
return CuraEngine() return PrusaSlicerEngine(print_config_folder)

89
app/utils/slice_engines/cura_engine.py
View File

@@ -6,10 +6,11 @@ import configparser
from app.utils.conf_parse import ConfParse from app.utils.conf_parse import ConfParse
class CuraEngine: class CuraEngine:
def __init__(self): def __init__(self, print_config_folder=None):
self.name = "cura" self.name = "cura"
self.display_name = "UltiMaker Cura" self.display_name = "UltiMaker Cura"
self.is_available = self._check_available() self.is_available = self._check_available()
self.print_config_folder = os.path.join(print_config_folder, "cura_engine") if print_config_folder else None
def _check_available(self): def _check_available(self):
try: try:
@@ -21,13 +22,6 @@ class CuraEngine:
self.display_name = "UltiMaker Cura" self.display_name = "UltiMaker Cura"
self.is_available = self._check_available() self.is_available = self._check_available()
def _check_available(self):
try:
# check if CuraEngine is available in PATH
result = subprocess.run(["CuraEngine", "help"], stdout=subprocess.PIPE, stderr=subprocess.PIPE)
return result.returncode == 0 or b"Usage:" in result.stdout or b"Usage:" in result.stderr
except (FileNotFoundError, OSError):
return False
def slice(self, app, stl_filepath, gcode_filepath, **kwargs): def slice(self, app, stl_filepath, gcode_filepath, **kwargs):
""" """
@@ -41,24 +35,29 @@ class CuraEngine:
tmp_def_path = None tmp_def_path = None
try: try:
base_config_path = os.path.abspath(os.path.join(app.root_path, '..', 'print_config')) printers_path = os.path.join(self.print_config_folder, 'printers') if self.print_config_folder else None
print_config_path = os.path.join(base_config_path, 'cura_engine') extruders_path = os.path.join(self.print_config_folder, 'extruders') if self.print_config_folder else None
printers_path = os.path.join(print_config_path, 'printers') materials_path = os.path.join(self.print_config_folder, 'materials') if self.print_config_folder else None
extruders_path = os.path.join(print_config_path, 'extruders') presets_path = os.path.join(self.print_config_folder, 'quality') if self.print_config_folder else None
materials_path = os.path.join(print_config_path, 'materials') variants_path = os.path.join(self.print_config_folder, 'variants') if self.print_config_folder else None
presets_path = os.path.join(print_config_path, 'quality')
variants_path = os.path.join(print_config_path, 'variants')
env = os.environ.copy() env = os.environ.copy()
env["CURA_ENGINE_SEARCH_PATH"] = f"{printers_path}:{extruders_path}:{materials_path}:{presets_path}:{variants_path}" env["CURA_ENGINE_SEARCH_PATH"] = f"{printers_path}:{extruders_path}:{materials_path}:{presets_path}:{variants_path}"
from app.models import SystemConfig
db_printer = SystemConfig.query.filter_by(key='default_printer').first()
p_val = db_printer.value if db_printer and db_printer.value else 'creality_ender3v3se.def.json'
if not p_val.endswith('.def.json'): p_val += '.def.json'
def_files = [ def_files = [
os.path.join(printers_path, "fdmprinter.def.json"), os.path.join(printers_path, "fdmprinter.def.json"),
os.path.join(printers_path, "fdmextruder.def.json"), os.path.join(printers_path, "fdmextruder.def.json"),
os.path.join(printers_path, "creality_base.def.json"), os.path.join(printers_path, "creality_base.def.json"),
os.path.join(printers_path, "creality_ender3v3se.def.json") os.path.join(printers_path, p_val)
] ]
inst_files_list = [] inst_files_list = []
quality_type = None quality_type = None
preset_path = None preset_path = None
@@ -82,19 +81,19 @@ class CuraEngine:
if os.path.exists(m_path): inst_files_list.append(m_path) if os.path.exists(m_path): inst_files_list.append(m_path)
if variant_type: if variant_type:
variant_d = variant_type.split("mm")[0] variant_d = variant_type.split("mm")[0]
v_path = os.path.join(variants_path, "creality", f"creality_ender3v3se_{variant_d}.inst.cfg") v_path = os.path.join(variants_path, "creality", f"{p_val.replace('.def.json', '')}_{variant_d}.inst.cfg")
if os.path.exists(v_path): inst_files_list.append(v_path) if os.path.exists(v_path): inst_files_list.append(v_path)
if support_pattern == 'tree': if support_pattern == 'tree':
t_path = os.path.join(print_config_path, 'supports', 'tree.inst.cfg') t_path = os.path.join(self.print_config_folder, 'supports', 'tree.inst.cfg') if self.print_config_folder else None
if os.path.exists(t_path): inst_files_list.append(t_path) if t_path and os.path.exists(t_path): inst_files_list.append(t_path)
elif support_pattern and support_pattern != 'false': elif support_pattern and support_pattern != 'false':
n_path = os.path.join(print_config_path, 'supports', 'normal.inst.cfg') n_path = os.path.join(self.print_config_folder, 'supports', 'normal.inst.cfg') if self.print_config_folder else None
if os.path.exists(n_path): inst_files_list.append(n_path) if n_path and os.path.exists(n_path): inst_files_list.append(n_path)
if quality_preset and quality_type: if quality_preset and quality_type:
g_path = os.path.join(presets_path, 'creality', 'globals', f"{quality_type}.inst.cfg") g_path = os.path.join(self.print_config_folder, 'creality', 'globals', f"{quality_type}.inst.cfg") if self.print_config_folder else None
if os.path.exists(g_path): inst_files_list.append(g_path) if g_path and os.path.exists(g_path): inst_files_list.append(g_path)
if quality_preset and preset_path and os.path.exists(preset_path): if quality_preset and preset_path and os.path.exists(preset_path):
inst_files_list.append(preset_path) inst_files_list.append(preset_path)
@@ -192,10 +191,10 @@ class CuraEngine:
except Exception as e: except Exception as e:
app.logger.error(f"Failed to delete temp JSON config {tmp_def_path}: {e}") app.logger.error(f"Failed to delete temp JSON config {tmp_def_path}: {e}")
def get_quality_presets(self, app): def get_quality_presets(self):
try: try:
path = os.path.join(app.root_path, '..', 'print_config', 'cura_engine', 'quality', 'creality', 'presets') path = os.path.join(self.print_config_folder, 'quality', 'creality', 'presets') if self.print_config_folder else None
if not os.path.exists(path): return [] if not path or not os.path.exists(path): return []
files = [f for f in os.listdir(path) if f.endswith('.inst.cfg')] files = [f for f in os.listdir(path) if f.endswith('.inst.cfg')]
presets = [] presets = []
for f in files: for f in files:
@@ -205,7 +204,7 @@ class CuraEngine:
except: except:
return [] return []
def get_support_patterns(self, app): def get_support_patterns(self):
return [ return [
{'id': 'tree', 'name': 'Tree'}, {'id': 'tree', 'name': 'Tree'},
{'id': 'lines', 'name': 'Lines'}, {'id': 'lines', 'name': 'Lines'},
@@ -219,10 +218,10 @@ class CuraEngine:
{'id': 'octagon', 'name': 'Octagon'} {'id': 'octagon', 'name': 'Octagon'}
] ]
def get_materials(self, app): def get_materials(self):
try: try:
path = os.path.join(app.root_path, '..', 'print_config', 'cura_engine', 'materials') path = os.path.join(self.print_config_folder, 'materials') if self.print_config_folder else None
if not os.path.exists(path): return [] if not path or not os.path.exists(path): return []
files = [f for f in os.listdir(path) if f.endswith('.inst.cfg')] files = [f for f in os.listdir(path) if f.endswith('.inst.cfg')]
materials = [] materials = []
for f in files: for f in files:
@@ -231,3 +230,33 @@ class CuraEngine:
return materials return materials
except: except:
return [] return []
def get_bed_dimensions(self):
from app.models import SystemConfig
import json
try:
db_printer = SystemConfig.query.filter_by(key='default_printer').first()
p_val = db_printer.value if db_printer and db_printer.value else 'creality_ender3v3se.def.json'
if not p_val.endswith('.def.json'): p_val += '.def.json'
path = os.path.join(self.print_config_folder, 'printers', p_val)
with open(path, 'r', encoding='utf-8') as f:
data = json.load(f)
w = data['overrides']['machine_width']['default_value']
h = data['overrides']['machine_depth']['default_value']
hd = data['overrides']['machine_height']['default_value']
return w, h, hd
except:
pass
return 220, 220, 250
def get_all_printers(self):
try:
path = os.path.join(self.print_config_folder, 'printers') if self.print_config_folder else None
if not path or not os.path.exists(path): return []
files = [f for f in os.listdir(path) if f.endswith('.inst.cfg')]
printers = []
for f in files:
printers.append({'id': f, 'name': f.replace('..def.json', '').replace('generic_', 'Generic ').replace('_', ' ').title()})
printers.sort(key=lambda x: x['name'])
return printers
except:
return []

99
app/utils/slice_engines/prusa_slicer_engine.py
View File

@@ -4,10 +4,11 @@ import configparser
import uuid import uuid
class PrusaSlicerEngine: class PrusaSlicerEngine:
def __init__(self): def __init__(self, print_config_folder=None):
self.name = "prusa_slicer" self.name = "prusa_slicer"
self.display_name = "PrusaSlicer" self.display_name = "PrusaSlicer"
self.is_available = self._check_available() self.is_available = self._check_available()
self.print_config_folder = os.path.join(print_config_folder, 'prusa_slicer') if print_config_folder else None
def _check_available(self): def _check_available(self):
try: try:
@@ -47,18 +48,22 @@ class PrusaSlicerEngine:
# print(support_pattern) # print(support_pattern)
all_configs = {} all_configs = {}
printer_ini = os.path.join(app.root_path, '..', 'print_config', 'prusa_slicer', 'printers', 'Ender3_V3_SE.ini') from app.models import SystemConfig
if os.path.exists(printer_ini): db_printer = SystemConfig.query.filter_by(key='default_printer').first()
p_val = db_printer.value if db_printer and db_printer.value else 'Ender3_V3_SE'
if not p_val.endswith('.ini'): p_val += '.ini'
printer_ini = os.path.join(self.print_config_folder, 'printers', p_val) if self.print_config_folder else None
if printer_ini and os.path.exists(printer_ini):
self.add_ini_keys(printer_ini, 'settings', all_configs) self.add_ini_keys(printer_ini, 'settings', all_configs)
if quality_preset: if quality_preset:
q_ini = os.path.join(app.root_path, '..', 'print_config', 'prusa_slicer', 'quality', f"{quality_preset}.ini") q_ini = os.path.join(self.print_config_folder, 'quality', f"{quality_preset}.ini") if self.print_config_folder else None
if os.path.exists(q_ini): if q_ini and os.path.exists(q_ini):
self.add_ini_keys(q_ini, 'settings', all_configs) self.add_ini_keys(q_ini, 'settings', all_configs)
if material_preset: if material_preset:
m_ini = os.path.join(app.root_path, '..', 'print_config', 'prusa_slicer', 'materials', f"{material_preset}.ini") m_ini = os.path.join(self.print_config_folder, 'materials', f"{material_preset}.ini") if self.print_config_folder else None
if os.path.exists(m_ini): if m_ini and os.path.exists(m_ini):
self.add_ini_keys(m_ini, 'settings', all_configs) self.add_ini_keys(m_ini, 'settings', all_configs)
if infill_density is not None: if infill_density is not None:
@@ -69,20 +74,19 @@ class PrusaSlicerEngine:
if support_enable == 'buildplate': if support_enable == 'buildplate':
command.append("--support-material-buildplate-only") command.append("--support-material-buildplate-only")
# PrusaSlicer equivalent for tree supports => organic # PrusaSlicer equivalent for tree supports => organic
support_pattern_ini = os.path.join(app.root_path, '..', 'print_config', 'prusa_slicer', 'supports', f'{support_pattern}.ini') support_pattern_ini = os.path.join(self.print_config_folder, 'supports', f'{support_pattern}.ini') if self.print_config_folder else None
if os.path.exists(support_pattern_ini): if support_pattern_ini and os.path.exists(support_pattern_ini):
self.add_ini_keys(support_pattern_ini, 'settings', all_configs) self.add_ini_keys(support_pattern_ini, 'settings', all_configs)
else: else:
# Load the default no_support.ini if no support is enabled # Load the default no_support.ini if no support is enabled
no_support_ini = os.path.join(app.root_path, '..', 'print_config', 'prusa_slicer', 'supports', 'no_support.ini') no_support_ini = os.path.join(self.print_config_folder, 'supports', 'no_support.ini') if self.print_config_folder else None
if os.path.exists(no_support_ini): if no_support_ini and os.path.exists(no_support_ini):
self.add_ini_keys(no_support_ini, 'settings', all_configs) self.add_ini_keys(no_support_ini, 'settings', all_configs)
else: else:
all_configs['support_material'] = '0' all_configs['support_material'] = '0'
tmp_ini_filename = f"tmp_{uuid.uuid4().hex}.ini" tmp_ini_filename = f"tmp_{uuid.uuid4().hex}.ini"
tmp_ini_path = os.path.join(app.config['UPLOAD_FOLDER'], tmp_ini_filename) tmp_ini_path = os.path.join(app.config['UPLOAD_FOLDER'], tmp_ini_filename)
print(f'****tmp_ini_path: {tmp_ini_path}')
with open(tmp_ini_path, 'w') as f: with open(tmp_ini_path, 'w') as f:
for key, value in all_configs.items(): for key, value in all_configs.items():
f.write(f"{key} = {value}\n") f.write(f"{key} = {value}\n")
@@ -108,11 +112,11 @@ class PrusaSlicerEngine:
app.logger.error(f"PrusaSlicer Exception: {e}") app.logger.error(f"PrusaSlicer Exception: {e}")
return False, str(e) return False, str(e)
def get_quality_presets(self, app): def get_quality_presets(self):
all_files = [f for f in os.listdir(os.path.join(app.root_path, '..', 'print_config', 'prusa_slicer',"quality")) if f.endswith('.ini')] all_files = [f for f in os.listdir(os.path.join(self.print_config_folder, "quality")) if f.endswith('.ini')] if self.print_config_folder else []
quality_presets = [] quality_presets = []
for file in all_files: for file in all_files:
with open(os.path.join(app.root_path, '..', 'print_config', 'prusa_slicer', "quality", file), 'r') as f: with open(os.path.join(self.print_config_folder, "quality", file), 'r') as f:
config = configparser.ConfigParser() config = configparser.ConfigParser()
config.read_file(f) config.read_file(f)
if 'metadata' in config: if 'metadata' in config:
@@ -122,11 +126,11 @@ class PrusaSlicerEngine:
}) })
return quality_presets return quality_presets
def get_support_patterns(self, app): def get_support_patterns(self):
all_files = [f for f in os.listdir(os.path.join(app.root_path, '..', 'print_config', 'prusa_slicer',"supports")) if f.endswith('.ini')] all_files = [f for f in os.listdir(os.path.join(self.print_config_folder,"supports")) if f.endswith('.ini')] if self.print_config_folder else []
support_presets = [] support_presets = []
for file in all_files: for file in all_files:
with open(os.path.join(app.root_path, '..', 'print_config', 'prusa_slicer', "supports", file), 'r') as f: with open(os.path.join(self.print_config_folder, "supports", file), 'r') as f:
config = configparser.ConfigParser() config = configparser.ConfigParser()
config.read_file(f) config.read_file(f)
if 'metadata' in config: if 'metadata' in config:
@@ -136,15 +140,54 @@ class PrusaSlicerEngine:
}) })
return support_presets return support_presets
def get_materials(self, app): def get_materials(self):
all_files = [f for f in os.listdir(os.path.join(self.print_config_folder, "materials")) if f.endswith('.ini')] if self.print_config_folder else []
materials = []
for file in all_files:
with open(os.path.join(self.print_config_folder, "materials", file), 'r') as f:
config = configparser.ConfigParser()
config.read_file(f)
if 'metadata' in config:
materials.append({
'id': file.replace('.ini', ''),
'name': config['metadata'].get('show_name', file.replace('.ini', '').replace('_', ' '))
})
return materials
def get_bed_dimensions(self):
from app.models import SystemConfig
import configparser
try: try:
path = os.path.join(app.root_path, '..', 'print_config', 'prusa_slicer', 'materials') db_printer = SystemConfig.query.filter_by(key='default_printer').first()
if not os.path.exists(path): return [] p_val = db_printer.value if db_printer and db_printer.value else 'Ender3_V3_SE.ini'
files = [f for f in os.listdir(path) if f.endswith('.ini')] if not p_val.endswith('.ini'): p_val += '.ini'
materials = [] path = os.path.join(self.print_config_folder, 'printers', p_val)
for f in files: config = configparser.ConfigParser()
materials.append({'id': f.replace('.ini', ''), 'name': f.replace('.ini', '').replace('_', ' ')}) config.read(path)
materials.sort(key=lambda x: x['name']) if 'settings' in config and 'bed_shape' in config['settings']:
return materials # format is usually like 0x0,220x0,220x220,0x220
coords = config['settings']['bed_shape'].split(',')
max_x = max([float(c.split('x')[0]) for c in coords])
max_y = max([float(c.split('x')[1]) for c in coords])
# height
h = 250
if 'max_print_height' in config['settings']:
h = float(config['settings']['max_print_height'])
return max_x, max_y, h
except: except:
return [] pass
return 220, 220, 250
def get_all_printers(self):
all_files = [f for f in os.listdir(os.path.join(self.print_config_folder, "printers")) if f.endswith('.ini')] if self.print_config_folder else []
printers = []
for file in all_files:
with open(os.path.join(self.print_config_folder, "printers", file), 'r') as f:
config = configparser.ConfigParser()
config.read_file(f)
if 'metadata' in config:
printers.append({
'id': file.replace('.ini', ''),
'name': config['metadata'].get('show_name', file.replace('.ini', '').replace('_', ' '))
})
return printers

12
app/utils/tasks.py
View File

@@ -6,7 +6,7 @@ from app.utils.conf_parse import ConfParse
import json import json
import uuid import uuid
import configparser import configparser
from app.utils.slice_engines import get_slicer_engine
import os import os
@@ -45,16 +45,14 @@ def slice_stl_task(file_id, stl_filepath, quality_preset=None, material_preset=N
# Remove DB session to avoid locking the sqlite db during long slicing operations # Remove DB session to avoid locking the sqlite db during long slicing operations
db.session.remove() db.session.remove()
from app.utils.slice_engines import get_slicer_engine
try: try:
# Optionally fetch the preferred engine from db conf or just default to cura # Optionally fetch the preferred engine from db conf or just default to prusa
# For now default to cura or whichever is passed via kwargs if implemented later # For now default to prusa or whichever is passed via kwargs if implemented later
conf_engine = SystemConfig.query.filter_by(key='slicer_engine').first() conf_engine = SystemConfig.query.filter_by(key='slicer_engine').first()
engine_name = conf_engine.value if conf_engine and conf_engine.value else "cura" engine_name = conf_engine.value if conf_engine and conf_engine.value else "prusa"
db.session.remove() db.session.remove()
slicer = get_slicer_engine(engine_name) slicer = get_slicer_engine(engine_name,app.config['PRINT_CONFIG_FOLDER'])
success, err_msg = slicer.slice( success, err_msg = slicer.slice(
app=app, app=app,

54
fix_ini_files.py
View File

@@ -1,54 +0,0 @@
import os
import glob
import difflib
# Read valid keys
valid_keys = set()
with open('valid_keys.txt', 'r') as f:
for line in f:
valid_keys.add(line.strip())
def process_file(filepath):
with open(filepath, 'r') as f:
lines = f.readlines()
new_lines = []
changed = False
for line in lines:
stripped = line.strip()
# Skip empty lines, metadata sections, or already commented lines with ;
if not stripped or stripped.startswith('[') or stripped.startswith(';'):
new_lines.append(line)
continue
if '=' in line:
parts = line.split('=', 1)
key = parts[0].strip()
val = parts[1]
if key in valid_keys:
new_lines.append(line)
else:
matches = difflib.get_close_matches(key, valid_keys, n=1, cutoff=0.8)
if matches:
new_key = matches[0]
new_lines.append(line.replace(key + ' ', new_key + ' ', 1) if key + ' ' in line else line.replace(key + '=', new_key + '=', 1))
print(f"{filepath}: Reacted {key} to {new_key}")
changed = True
else:
new_lines.append(';;;' + line)
print(f"{filepath}: Commented {key}")
changed = True
else:
new_lines.append(line)
if changed:
with open(filepath, 'w') as f:
f.writelines(new_lines)
for root, dirs, files in os.walk('print_config/prusa_slicer'):
for file in files:
if file.endswith('.ini'):
process_file(os.path.join(root, file))

246
llm_semantic_fix2.py
View File

@@ -1,246 +0,0 @@
import os
def load_valid_keys():
valid = set()
if os.path.exists('valid_keys.txt'):
with open('valid_keys.txt', 'r') as f:
for line in f:
if line.strip():
valid.add(line.strip())
# 补充一些在 PrusaSlicer ini常见但可能在cli中缺失的原生合法字段
valid.update([
"start_gcode", "end_gcode", "before_layer_gcode", "temperature",
"first_layer_temperature", "bed_temperature", "first_layer_bed_temperature",
"printer_model", "family", "z_offset", "printer_technology",
"gcode_flavor", "silent_mode", "printer_variant", "max_print_height",
"nozzle_diameter", "extruder_colour", "extruder_offset", "use_relative_e_distances",
"use_firmware_retraction", "retract_layer_change", "retract_length",
"retract_lift", "retract_lift_above", "retract_lift_below", "retract_speed",
"deretract_speed", "retract_before_travel", "retract_before_wipe", "wipe",
"machine_limits_usage", "machine_max_acceleration_x", "machine_max_acceleration_y",
"machine_max_acceleration_z", "machine_max_acceleration_e",
"machine_max_speed_x", "machine_max_speed_y", "machine_max_speed_z",
"machine_max_speed_e", "machine_max_jerk_x", "machine_max_jerk_y",
"machine_max_jerk_z", "machine_max_jerk_e", "machine_min_travel_rate",
"default_filament_colour", "filament_type", "filament_diameter",
"filament_density", "filament_cost", "fan_always_on", "cooling",
"support_material", "support_material_auto", "support_material_style"
])
return valid
VALID_KEYS = load_valid_keys()
# 基于全量 all_keys.txt 逐一梳理的语义映射字典
SEMANTIC_MAP = {
# 打印层高相关
"adaptive_layer_height": "variable_layer_height",
"initial_layer_print_height": "first_layer_height",
"layer_height": "layer_height",
"min_layer_height": "min_layer_height",
"max_layer_height": "max_layer_height",
"print_sequence": "complete_objects",
# 线宽相关
"line_width": "extrusion_width",
"initial_layer_line_width": "first_layer_extrusion_width",
"outer_wall_line_width": "external_perimeter_extrusion_width",
"inner_wall_line_width": "perimeter_extrusion_width",
"top_surface_line_width": "top_infill_extrusion_width",
"sparse_infill_line_width": "infill_extrusion_width",
"internal_solid_infill_line_width": "solid_infill_extrusion_width",
# 墙/外壳相关
"wall_loops": "perimeters",
"top_shell_layers": "top_solid_layers",
"bottom_shell_layers": "bottom_solid_layers",
"top_shell_thickness": "top_solid_min_thickness",
"bottom_shell_thickness": "bottom_solid_min_thickness",
"only_one_wall_top": "top_one_perimeter_type",
"detect_thin_wall": "thin_walls",
# "detect_narrow_internal_solid_infill": "thin_walls",
"reduce_crossing_wall": "avoid_crossing_perimeters",
# 填充相关
"sparse_infill_density": "fill_density",
"sparse_infill_pattern": "fill_pattern",
"infill_direction": "fill_angle",
"infill_wall_overlap": "infill_overlap",
"infill_combination": "solid_infill_every_layers",
"bottom_surface_pattern": "bottom_fill_pattern",
"top_surface_pattern": "top_fill_pattern",
"gap_fill_target": "gap_fill_enabled",
# 速度相关
"initial_layer_speed": "first_layer_speed",
"initial_layer_infill_speed": "first_layer_infill_speed",
"outer_wall_speed": "external_perimeter_speed",
"inner_wall_speed": "perimeter_speed",
"top_surface_speed": "top_solid_infill_speed",
"sparse_infill_speed": "infill_speed",
"internal_solid_infill_speed": "solid_infill_speed",
"gap_infill_speed": "gap_fill_speed",
"bridge_speed": "bridge_speed",
"travel_speed": "travel_speed",
"travel_speed_z": "travel_speed_z",
"small_perimeter_speed": "small_perimeter_speed",
"support_speed": "support_material_speed",
"support_interface_speed": "support_material_interface_speed",
# 加速度相关
"default_acceleration": "default_acceleration",
"initial_layer_acceleration": "first_layer_acceleration",
"outer_wall_acceleration": "external_perimeter_acceleration",
"inner_wall_acceleration": "perimeter_acceleration",
"top_surface_acceleration": "top_solid_infill_acceleration",
"travel_acceleration": "travel_acceleration",
"bridge_acceleration": "bridge_acceleration",
# 支撑相关
"support_angle": "support_material_angle",
"support_top_z_distance": "support_material_contact_distance",
"support_bottom_z_distance": "support_material_bottom_contact_distance",
"support_interface_top_layers": "support_material_interface_layers",
"support_interface_bottom_layers": "support_material_bottom_interface_layers",
"support_interface_spacing": "support_material_interface_spacing",
# "support_remove_small_overhang": "support_material_threshold",
"support_interface_pattern": "support_material_interface_pattern",
# 底座/附着相关
"brim_width": "brim_width",
"raft_layers": "raft_layers",
"raft_contact_distance": "raft_contact_distance",
"raft_expansion": "raft_expansion",
"raft_first_layer_density": "raft_first_layer_density",
"raft_first_layer_expansion": "raft_first_layer_expansion",
"skirt_distance": "skirt_distance",
"skirt_height": "skirt_height",
"skirt_loops": "skirts",
"elefant_foot_compensation": "elefant_foot_compensation",
# 回抽与耗材相关
"z_hop": "retract_lift",
"retract_length": "retract_length",
"retract_speed": "retract_speed",
"retract_before_wipe": "retract_before_wipe",
"retract_before_travel": "retract_before_travel",
"retract_layer_change": "retract_layer_change",
"retract_lift_above": "retract_lift_above",
"retract_lift_below": "retract_lift_below",
"filament_deretraction_speed": "filament_deretract_speed",
"filament_retraction_length": "filament_retract_length",
"filament_retraction_speed": "filament_retract_speed",
"material_type": "filament_type",
"nozzle_temperature": "temperature",
"nozzle_temperature_initial_layer": "first_layer_temperature",
"filament_flow_ratio": "extrusion_multiplier",
# 其他属性
"bridge_flow": "bridge_flow_ratio",
# "idle_temperature": "standby_temperature_delta",
"enable_arc_fitting": "arc_fitting",
"slowdown_for_curled_perimeters": "avoid_crossing_curled_overhangs",
"slow_down_layer_time": "slowdown_below_layer_time",
"fan_max_speed": "max_fan_speed",
"fan_min_speed": "min_fan_speed",
"spiral_mode": "spiral_vase",
"prime_tower_brim_width": "wipe_tower_brim_width",
"prime_tower_width": "wipe_tower_width",
"bridge_no_support": "dont_support_bridges",
"minimum_sparse_infill_area": "solid_infill_below_area",
"xy_hole_compensation": "xy_size_compensation",
"enable_prime_tower": "wipe_tower",
"ironing_flow": "ironing_flowrate",
"overhang_1_4_speed": "overhang_speed_0",
"overhang_2_4_speed": "overhang_speed_1",
"overhang_3_4_speed": "overhang_speed_2",
"overhang_4_4_speed": "overhang_speed_3",
"enable_overhang_speed": "enable_dynamic_overhang_speeds",
"enforce_support_layers": "support_material_enforce_layers",
"fuzzy_skin_point_distance": "fuzzy_skin_point_dist",
# "initial_layer_min_bead_width": "min_bead_width",
# "internal_bridge_flow": "bridge_flow_ratio",
# "internal_bridge_speed": "bridge_speed",
"internal_solid_infill_acceleration": "solid_infill_acceleration",
"internal_solid_infill_pattern": "solid_fill_pattern",
"is_infill_first": "infill_first",
"seam_gap": "seam_gap_distance",
"seam_slope_entire_loop": "scarf_seam_entire_loop",
"seam_slope_inner_walls": "scarf_seam_on_inner_perimeters",
"seam_slope_min_length": "scarf_seam_length",
"seam_slope_start_height": "scarf_seam_start_height",
"sparse_infill_acceleration": "infill_acceleration",
"internal_solid_infill_acceleration": "solid_infill_acceleration",
"wall_generator": "perimeter_generator",
# "wipe_tower_rotation_angle": "wipe_tower_cone_angle"
}
def process_file(filepath):
with open(filepath, 'r') as f:
lines = f.readlines()
new_lines = []
changed = False
for line in lines:
stripped = line.strip()
# 忽略空行、段名和已经是原生的配置行
if not stripped or stripped.startswith('[') or stripped.startswith(';') or stripped.startswith('show_name'):
new_lines.append(line)
continue
if '=' in line:
parts = line.split('=', 1)
raw_key = parts[0].strip()
# 兼容前面可能被加了;;;的key重新解开的情况以防跑多次
key = raw_key.lstrip(';')
val = parts[1].strip()
# 处理一些特有的布尔值或字符串转义差异
if key == "print_sequence" and val == "by layer":
val = "0"
elif key == "print_sequence" and val == "by object":
val = "1"
if key == "spiral_mode":
val = "1" if val != "0" else "0"
if key == "support_type" and "auto" in val:
val = "1"
if val == "zig-zag":
val = "zigzag"
if key == "enable_arc_fitting":
if str(val) == "1":
val = "emit_center"
else:
val = "disabled"
if key == "only_one_wall_top":
if str(val) == "1":
val = "top"
else:
val = "none"
if key in SEMANTIC_MAP:
new_key = SEMANTIC_MAP[key]
new_lines.append(f"{new_key} = {val}\n")
changed = True
elif key in VALID_KEYS:
# 已经是PrusaSlicer的原生可用属性
new_lines.append(f"{key} = {val}\n")
else:
# 在 all_keys.txt 中但找不到任何对应 PrusaSlicer 语义的属性
new_lines.append(f";;;{raw_key} = {val}\n")
changed = True
else:
new_lines.append(line)
if changed:
with open(filepath, 'w') as f:
f.writelines(new_lines)
for root, dirs, files in os.walk('print_config/prusa_slicer'):
for file in files:
if file.endswith('.ini'):
process_file(os.path.join(root, file))
print("All keys mapped exhaustively.")

1
print_config/prusa_slicer/materials/CR-PETG.ini
View File

@@ -6,6 +6,7 @@ filament_type = petg
[settings] [settings]
; filament_adhesiveness_category = 300 ; filament_adhesiveness_category = 300
idle_temperature = 160 idle_temperature = 160
bed_temperature = 70
first_layer_bed_temperature = 70 first_layer_bed_temperature = 70
;;;cool_plate_temp = 70 ;;;cool_plate_temp = 70
;;;eng_plate_temp = 0 ;;;eng_plate_temp = 0

1
print_config/prusa_slicer/materials/CR-PLA.ini
View File

@@ -5,6 +5,7 @@ filament_type = pla
[settings] [settings]
idle_temperature = 150 idle_temperature = 150
bed_temperature = 60
first_layer_bed_temperature = 60 first_layer_bed_temperature = 60
;;;cool_plate_temp = 50 ;;;cool_plate_temp = 50
;;;eng_plate_temp = 45 ;;;eng_plate_temp = 45

1
print_config/prusa_slicer/materials/Generic_PETG.ini
View File

@@ -6,6 +6,7 @@ filament_type = petg
[settings] [settings]
; filament_adhesiveness_category = 300 ; filament_adhesiveness_category = 300
idle_temperature = 160 idle_temperature = 160
bed_temperature = 70
first_layer_bed_temperature = 70 first_layer_bed_temperature = 70
;;;cool_plate_temp = 60 ;;;cool_plate_temp = 60
;;;eng_plate_temp = 0 ;;;eng_plate_temp = 0

1
print_config/prusa_slicer/materials/Generic_TPU.ini
View File

@@ -5,6 +5,7 @@ filament_type = tpu
[settings] [settings]
idle_temperature = 130 idle_temperature = 130
bed_temperature = 55
first_layer_bed_temperature = 55 first_layer_bed_temperature = 55
;;;cool_plate_temp = 30 ;;;cool_plate_temp = 30
;;;eng_plate_temp = 30 ;;;eng_plate_temp = 30

1
print_config/prusa_slicer/materials/Hyper_L-W_PLA.ini
View File

@@ -5,6 +5,7 @@ filament_type = pla
[settings] [settings]
idle_temperature = 150 idle_temperature = 150
bed_temperature = 60
first_layer_bed_temperature = 60 first_layer_bed_temperature = 60
;;;cool_plate_temp = 50 ;;;cool_plate_temp = 50
;;;eng_plate_temp = 45 ;;;eng_plate_temp = 45

1
print_config/prusa_slicer/materials/Hyper_Marble_PLA.ini
View File

@@ -5,6 +5,7 @@ filament_type = pla
[settings] [settings]
idle_temperature = 150 idle_temperature = 150
bed_temperature = 60
first_layer_bed_temperature = 60 first_layer_bed_temperature = 60
;;;cool_plate_temp = 50 ;;;cool_plate_temp = 50
;;;eng_plate_temp = 45 ;;;eng_plate_temp = 45

4
print_config/prusa_slicer/materials/Hyper_PETG.ini
View File

@@ -6,6 +6,8 @@ filament_type = petg
[settings] [settings]
; filament_adhesiveness_category = 300 ; filament_adhesiveness_category = 300
idle_temperature = 160 idle_temperature = 160
bed_temperature = 70
first_layer_bed_temperature = 70
;;;cool_plate_temp = 60 ;;;cool_plate_temp = 60
;;;eng_plate_temp = 0 ;;;eng_plate_temp = 0
;;;hot_plate_temp = 70 ;;;hot_plate_temp = 70
@@ -49,8 +51,6 @@ max_fan_speed = 80
min_fan_speed = 40 min_fan_speed = 40
;;;slow_down_min_speed = 10 ;;;slow_down_min_speed = 10
slowdown_below_layer_time = 8 slowdown_below_layer_time = 8
bed_temperature = 70
first_layer_bed_temperature = 70
;;;filament_start_gcode = ;filament start gcode\n ;;;filament_start_gcode = ;filament start gcode\n
temperature = 240 temperature = 240
;;;temperature_vitrification = 80 ;;;temperature_vitrification = 80

1
print_config/prusa_slicer/materials/Hyper_PLA.ini
View File

@@ -5,6 +5,7 @@ filament_type = pla
[settings] [settings]
idle_temperature = 150 idle_temperature = 150
bed_temperature = 60
first_layer_bed_temperature = 60 first_layer_bed_temperature = 60
;;;cool_plate_temp = 50 ;;;cool_plate_temp = 50
;;;eng_plate_temp = 45 ;;;eng_plate_temp = 45

1
print_config/prusa_slicer/materials/Hyper_Stardust_PLA.ini
View File

@@ -5,6 +5,7 @@ filament_type = pla
[settings] [settings]
idle_temperature = 150 idle_temperature = 150
bed_temperature = 60
first_layer_bed_temperature = 60 first_layer_bed_temperature = 60
;;;cool_plate_temp = 50 ;;;cool_plate_temp = 50
;;;eng_plate_temp = 45 ;;;eng_plate_temp = 45

1
print_config/prusa_slicer/materials/Soleyin_Ultra_PLA.ini
View File

@@ -5,6 +5,7 @@ filament_type = pla
[settings] [settings]
idle_temperature = 150 idle_temperature = 150
bed_temperature = 60
first_layer_bed_temperature = 60 first_layer_bed_temperature = 60
;;;cool_plate_temp = 50 ;;;cool_plate_temp = 50
;;;eng_plate_temp = 45 ;;;eng_plate_temp = 45

2
print_config/prusa_slicer/printers/Ender3_V3_SE.ini
View File

@@ -48,7 +48,7 @@ single_extruder_multi_material = 1
start_filament_gcode = ;Do nothing start_filament_gcode = ;Do nothing
wipe = 1 wipe = 1
before_layer_gcode = ;BEFORE_LAYER_CHANGE\n;[layer_z]\nG92 E0\n before_layer_gcode = ;BEFORE_LAYER_CHANGE\n;[layer_z]\nG92 E0\n
start_gcode = M220 S100 ;Reset Feedrate \nM221 S100 ;Reset Flowrate \n \nM140 S{first_layer_bed_temperature[0]} ;Set final bed temp \nG28 ;Home \n \nG92 E0 ;Reset Extruder \nG1 Z2.0 F3000 ;Move Z Axis up \nM104 S{first_layer_temperature[0]} ;Set final nozzle temp \nG1 X-10 Y20 Z3 F5000.0 ;Move to out position \nM190 S{first_layer_bed_temperature[0]} ;Wait for bed temp to stabilize \nM109 S{temperature[0]} ;Wait for nozzle temp to stabilize \nG1 X-2.1 Y20 Z0.28 F5000.0 ;Move to start position \n G1 X-2.1 Y145.0 Z0.28 F1500.0 E15 ;Draw the first line \nG1 X-2.4 Y145.0 Z0.28 F5000.0 ;Move to side a little \nG1 X-2.4 Y20 Z0.28 F1500.0 E30 ;Draw the second line \nG92 E0 ;Reset Extruder \nG1 E-1.0000 F1800 ;Retract a bit \nG1 Z2.0 F3000 ;Move Z Axis up \nG1 E0.0000 F1800 start_gcode = M220 S100 ;Reset Feedrate \nM221 S100 ;Reset Flowrate \n \nM140 S{first_layer_bed_temperature[0]} ;Set final bed temp \nG28 ;Home \n \nG92 E0 ;Reset Extruder \nG1 Z2.0 F3000 ;Move Z Axis up \nM104 S{first_layer_temperature[0]} ;Set final nozzle temp \nG1 X-13 Y20 Z3 F5000.0 ;Move to out position \nM190 S{first_layer_bed_temperature[0]} ;Wait for bed temp to stabilize \nM109 S{temperature[0]} ;Wait for nozzle temp to stabilize \nG1 X-2.1 Y20 Z0.28 F5000.0 ;Move to start position \n G1 X-2.1 Y145.0 Z0.28 F1500.0 E15 ;Draw the first line \nG1 X-2.4 Y145.0 Z0.28 F5000.0 ;Move to side a little \nG1 X-2.4 Y20 Z0.28 F1500.0 E30 ;Draw the second line \nG92 E0 ;Reset Extruder \nG1 E-1.0000 F1800 ;Retract a bit \nG1 Z2.0 F3000 ;Move Z Axis up \nG1 E0.0000 F1800
end_gcode = G91 ;Relative positionning \nG1 E-2 F2700 ;Retract a bit \nG1 E-2 Z0.2 F2400 ;Retract and raise Z \nG1 X5 Y5 F3000 ;Wipe out \nG1 Z10 ;Raise Z more \nG90 ;Absolute positionning \n \nG1 X0 Y220 ;Present print \nM106 S0 ;Turn-off fan \nM104 S0 ;Turn-off hotend \nM140 S0 ;Turn-off bed \n \nM84 X Y E ;Disable all steppers but Z end_gcode = G91 ;Relative positionning \nG1 E-2 F2700 ;Retract a bit \nG1 E-2 Z0.2 F2400 ;Retract and raise Z \nG1 X5 Y5 F3000 ;Wipe out \nG1 Z10 ;Raise Z more \nG90 ;Absolute positionning \n \nG1 X0 Y220 ;Present print \nM106 S0 ;Turn-off fan \nM104 S0 ;Turn-off hotend \nM140 S0 ;Turn-off bed \n \nM84 X Y E ;Disable all steppers but Z
machine_max_acceleration_travel = 2000,2000 machine_max_acceleration_travel = 2000,2000
pause_print_gcode = M25 pause_print_gcode = M25

997
pru-all-cli.md
View File

@@ -1,997 +0,0 @@
Actions:
--export-3mf Export the model(s) as 3MF.
--export-amf Export the model(s) as AMF.
--export-gcode, --gcode, -g
Slice the model and export toolpaths as G-code.
--export-obj Export the model(s) as OBJ.
--export-sla, --sla Slice the model and export SLA printing layers as PNG.
--export-stl Export the model(s) as STL.
--gcodeviewer Visualize an already sliced and saved G-code
--help, -h Show this help.
--help-fff Show the full list of print/G-code configuration options.
--help-sla Show the full list of SLA print configuration options.
--info Write information about the model to the console.
--save ABCD Save configuration to the specified file.
--slice, -s Slice the model as FFF or SLA based on the printer_technology configuration
value.
Transform options:
--align-xy X,Y Align the model to the given point.
--center X,Y Center the print around the given center.
--cut N Cut model at the given Z.
--dont-arrange Do not rearrange the given models before merging and keep their original XY
coordinates.
--duplicate N Multiply copies by this factor.
--duplicate-grid X,Y
Multiply copies by creating a grid.
--ensure-on-bed Lift the object above the bed when it is partially below. Enabled by default,
use --no-ensure-on-bed to disable.
--merge, -m Arrange the supplied models in a plate and merge them in a single model in order
to perform actions once.
--repair Try to repair any non-manifold meshes (this option is implicitly added whenever
we need to slice the model to perform the requested action).
--rotate N Rotation angle around the Z axis in degrees.
--rotate-x N Rotation angle around the X axis in degrees.
--rotate-y N Rotation angle around the Y axis in degrees.
--scale N Scaling factor or percentage.
--scale-to-fit X,Y,Z
Scale to fit the given volume.
--split Detect unconnected parts in the given model(s) and split them into separate
objects.
Other options:
--config-compatibility
This version of PrusaSlicer may not understand configurations produced by the
newest PrusaSlicer versions. For example, newer PrusaSlicer may extend the list
of supported firmware flavors. One may decide to bail out or to substitute an
unknown value with a default silently or verbosely. (disable, enable,
enable_silent; default: enable)
--datadir ABCD Load and store settings at the given directory. This is useful for maintaining
different profiles or including configurations from a network storage.
--ignore-nonexistent-config
Do not fail if a file supplied to --load does not exist.
--load ABCD Load configuration from the specified file. It can be used more than once to
load options from multiple files.
--loglevel N Sets logging sensitivity. 0:fatal, 1:error, 2:warning, 3:info, 4:debug, 5:trace
For example. loglevel=2 logs fatal, error and warning level messages.
--output ABCD, -o ABCD
The file where the output will be written (if not specified, it will be based on
the input file).
--single-instance If enabled, the command line arguments are sent to an existing instance of GUI
PrusaSlicer, or an existing PrusaSlicer window is activated. Overrides the
"single_instance" configuration value from application preferences.
Print options are processed in the following order:
1) Config keys from the command line, for example --fill-pattern=stars
(highest priority, overwrites everything below)
2) Config files loaded with --load
3) Config values loaded from amf or 3mf files
Misc options:
--avoid-crossing-perimeters
Optimize travel moves in order to minimize the crossing of perimeters. This is
mostly useful with Bowden extruders which suffer from oozing. This feature slows
down both the print and the G-code generation.
--bed-custom-model ABCD
--bed-custom-texture ABCD
--bed-shape (default: 0x0,200x0,200x200,0x200)
--bed-temperature N Bed temperature for layers after the first one. Set this to zero to disable bed
temperature control commands in the output. (°C, default: 0)
--before-layer-gcode ABCD
This custom code is inserted at every layer change, right before the Z move.
Note that you can use placeholder variables for all Slic3r settings as well as
[layer_num] and [layer_z].
--between-objects-gcode ABCD
This code is inserted between objects when using sequential printing. By default
extruder and bed temperature are reset using non-wait command; however if M104,
M109, M140 or M190 are detected in this custom code, Slic3r will not add
temperature commands. Note that you can use placeholder variables for all Slic3r
settings, so you can put a "M109 S[first_layer_temperature]" command wherever
you want.
--bridge-acceleration N
This is the acceleration your printer will use for bridges. Set zero to disable
acceleration control for bridges. (mm/s², default: 0)
--bridge-fan-speed N
This fan speed is enforced during all bridges and overhangs. (%, default: 100)
--clip-multipart-objects
When printing multi-material objects, this settings will make Slic3r to clip the
overlapping object parts one by the other (2nd part will be clipped by the 1st,
3rd part will be clipped by the 1st and 2nd etc).
--color-change-gcode ABCD
This G-code will be used as a code for the color change (default: M600)
--colorprint-heights N
Heights at which a filament change is to occur. (default: )
--complete-objects When printing multiple objects or copies, this feature will complete each object
before moving onto next one (and starting it from its bottom layer). This
feature is useful to avoid the risk of ruined prints. Slic3r should warn and
prevent you from extruder collisions, but beware.
--cooling This flag enables the automatic cooling logic that adjusts print speed and fan
speed according to layer printing time. (default: 1)
--cooling-tube-length N
Length of the cooling tube to limit space for cooling moves inside it. (mm,
default: 5)
--cooling-tube-retraction N
Distance of the center-point of the cooling tube from the extruder tip. (mm,
default: 91.5)
--default-acceleration N
This is the acceleration your printer will be reset to after the role-specific
acceleration values are used (perimeter/infill). Set zero to prevent resetting
acceleration at all. (mm/s², default: 0)
--deretract-speed N The speed for loading of a filament into extruder after retraction (it only
applies to the extruder motor). If left to zero, the retraction speed is used.
(mm/s, default: 0)
--disable-fan-first-layers N
You can set this to a positive value to disable fan at all during the first
layers, so that it does not make adhesion worse. (layers, default: 3)
--draft-shield With draft shield active, the skirt will be printed skirt_distance from the
object, possibly intersecting brim. Enabled = skirt is as tall as the highest
printed object. Limited = skirt is as tall as specified by skirt_height. This is
useful to protect an ABS or ASA print from warping and detaching from print bed
due to wind draft. (disabled, limited, enabled; default: disabled)
--duplicate-distance N
Distance used for the auto-arrange feature of the plater. (mm, default: 6)
--end-filament-gcode ABCD
This end procedure is inserted at the end of the output file, before the printer
end gcode (and before any toolchange from this filament in case of multimaterial
printers). Note that you can use placeholder variables for all PrusaSlicer
settings. If you have multiple extruders, the gcode is processed in extruder
order. (default: "; Filament-specific end gcode \n;END gcode for filament\n")
--end-gcode ABCD This end procedure is inserted at the end of the output file. Note that you can
use placeholder variables for all PrusaSlicer settings. (default: M104 S0 ; turn
off temperature\nG28 X0 ; home X axis\nM84 ; disable motors\n)
--extra-loading-move N
When set to zero, the distance the filament is moved from parking position
during load is exactly the same as it was moved back during unload. When
positive, it is loaded further, if negative, the loading move is shorter than
unloading. (mm, default: -2)
--extruder-clearance-height N
Set this to the vertical distance between your nozzle tip and (usually) the X
carriage rods. In other words, this is the height of the clearance cylinder
around your extruder, and it represents the maximum depth the extruder can peek
before colliding with other printed objects. (mm, default: 20)
--extruder-clearance-radius N
Set this to the clearance radius around your extruder. If the extruder is not
centered, choose the largest value for safety. This setting is used to check for
collisions and to display the graphical preview in the plater. (mm, default: 20)
--extruder-colour ABCD
This is only used in the Slic3r interface as a visual help. (default: "")
--extruder-offset If your firmware doesn't handle the extruder displacement you need the G-code to
take it into account. This option lets you specify the displacement of each
extruder with respect to the first one. It expects positive coordinates (they
will be subtracted from the XY coordinate). (mm, default: 0x0)
--extrusion-axis ABCD
Use this option to set the axis letter associated to your printer's extruder
(usually E but some printers use A). (default: E)
--extrusion-multiplier N
This factor changes the amount of flow proportionally. You may need to tweak
this setting to get nice surface finish and correct single wall widths. Usual
values are between 0.9 and 1.1. If you think you need to change this more, check
filament diameter and your firmware E steps. (default: 1)
--fan-always-on If this is enabled, fan will never be disabled and will be kept running at least
at its minimum speed. Useful for PLA, harmful for ABS. (default: 0)
--fan-below-layer-time N
If layer print time is estimated below this number of seconds, fan will be
enabled and its speed will be calculated by interpolating the minimum and
maximum speeds. (approximate seconds, default: 60)
--filament-colour ABCD
This is only used in the Slic3r interface as a visual help. (default: #29B2B2)
--filament-cooling-final-speed N
Cooling moves are gradually accelerating towards this speed. (mm/s, default:
3.4)
--filament-cooling-initial-speed N
Cooling moves are gradually accelerating beginning at this speed. (mm/s,
default: 2.2)
--filament-cooling-moves N
Filament is cooled by being moved back and forth in the cooling tubes. Specify
desired number of these moves. (default: 4)
--filament-cost N Enter your filament cost per kg here. This is only for statistical information.
(money/kg, default: 0)
--filament-density N
Enter your filament density here. This is only for statistical information. A
decent way is to weigh a known length of filament and compute the ratio of the
length to volume. Better is to calculate the volume directly through
displacement. (g/cm³, default: 0)
--filament-deretract-speed N
The speed for loading of a filament into extruder after retraction (it only
applies to the extruder motor). If left to zero, the retraction speed is used.
(mm/s, default: 0)
--filament-diameter N
Enter your filament diameter here. Good precision is required, so use a caliper
and do multiple measurements along the filament, then compute the average. (mm,
default: 1.75)
--filament-load-time N
Time for the printer firmware (or the Multi Material Unit 2.0) to load a new
filament during a tool change (when executing the T code). This time is added to
the total print time by the G-code time estimator. (s, default: 0)
--filament-loading-speed N
Speed used for loading the filament on the wipe tower. (mm/s, default: 28)
--filament-loading-speed-start N
Speed used at the very beginning of loading phase. (mm/s, default: 3)
--filament-max-volumetric-speed N
Maximum volumetric speed allowed for this filament. Limits the maximum
volumetric speed of a print to the minimum of print and filament volumetric
speed. Set to zero for no limit. (mm³/s, default: 0)
--filament-minimal-purge-on-wipe-tower N
After a tool change, the exact position of the newly loaded filament inside the
nozzle may not be known, and the filament pressure is likely not yet stable.
Before purging the print head into an infill or a sacrificial object, Slic3r
will always prime this amount of material into the wipe tower to produce
successive infill or sacrificial object extrusions reliably. (mm³, default: 15)
--filament-notes ABCD
You can put your notes regarding the filament here. (default: "")
--filament-ramming-parameters ABCD
This string is edited by RammingDialog and contains ramming specific parameters.
(default: "120 100 6.6 6.8 7.2 7.6 7.9 8.2 8.7 9.4 9.9 10.0| 0.05 6.6 0.45 6.8
0.95 7.8 1.45 8.3 1.95 9.7 2.45 10 2.95 7.6 3.45 7.6 3.95 7.6 4.45 7.6 4.95
7.6")
--filament-retract-before-travel N
Retraction is not triggered when travel moves are shorter than this length. (mm,
default: 2)
--filament-retract-before-wipe
With bowden extruders, it may be wise to do some amount of quick retract before
doing the wipe movement. (%, default: 0%)
--filament-retract-layer-change
This flag enforces a retraction whenever a Z move is done. (default: 0)
--filament-retract-length N
When retraction is triggered, filament is pulled back by the specified amount
(the length is measured on raw filament, before it enters the extruder). (mm
(zero to disable), default: 2)
--filament-retract-lift N
If you set this to a positive value, Z is quickly raised every time a retraction
is triggered. When using multiple extruders, only the setting for the first
extruder will be considered. (mm, default: 0)
--filament-retract-lift-above N
If you set this to a positive value, Z lift will only take place above the
specified absolute Z. You can tune this setting for skipping lift on the first
layers. (mm, default: 0)
--filament-retract-lift-below N
If you set this to a positive value, Z lift will only take place below the
specified absolute Z. You can tune this setting for limiting lift to the first
layers. (mm, default: 0)
--filament-retract-restart-extra N
When the retraction is compensated after the travel move, the extruder will push
this additional amount of filament. This setting is rarely needed. (mm, default:
0)
--filament-retract-speed N
The speed for retractions (it only applies to the extruder motor). (mm/s,
default: 40)
--filament-soluble Soluble material is most likely used for a soluble support. (default: 0)
--filament-spool-weight N
Enter weight of the empty filament spool. One may weigh a partially consumed
filament spool before printing and one may compare the measured weight with the
calculated weight of the filament with the spool to find out whether the amount
of filament on the spool is sufficient to finish the print. (g, default: 0)
--filament-toolchange-delay N
Time to wait after the filament is unloaded. May help to get reliable
toolchanges with flexible materials that may need more time to shrink to
original dimensions. (s, default: 0)
--filament-type ABCD
The filament material type for use in custom G-codes. (PLA, PET, ABS, ASA, FLEX,
HIPS, EDGE, NGEN, PA, NYLON, PVA, PC, PP, PEI, PEEK, PEKK, POM, PSU, PVDF,
SCAFF; default: PLA)
--filament-unload-time N
Time for the printer firmware (or the Multi Material Unit 2.0) to unload a
filament during a tool change (when executing the T code). This time is added to
the total print time by the G-code time estimator. (s, default: 0)
--filament-unloading-speed N
Speed used for unloading the filament on the wipe tower (does not affect initial
part of unloading just after ramming). (mm/s, default: 90)
--filament-unloading-speed-start N
Speed used for unloading the tip of the filament immediately after ramming.
(mm/s, default: 100)
--filament-wipe This flag will move the nozzle while retracting to minimize the possible blob on
leaky extruders. (default: 0)
--first-layer-acceleration N
This is the acceleration your printer will use for first layer. Set zero to
disable acceleration control for first layer. (mm/s², default: 0)
--first-layer-acceleration-over-raft N
This is the acceleration your printer will use for first layer of object above
raft interface. Set zero to disable acceleration control for first layer of
object above raft interface. (mm/s², default: 0)
--first-layer-bed-temperature N
Heated build plate temperature for the first layer. Set this to zero to disable
bed temperature control commands in the output. (°C, default: 0)
--first-layer-speed N
If expressed as absolute value in mm/s, this speed will be applied to all the
print moves of the first layer, regardless of their type. If expressed as a
percentage (for example: 40%) it will scale the default speeds. (mm/s or %,
default: 30)
--first-layer-speed-over-raft N
If expressed as absolute value in mm/s, this speed will be applied to all the
print moves of the first object layer above raft interface, regardless of their
type. If expressed as a percentage (for example: 40%) it will scale the default
speeds. (mm/s or %, default: 30)
--first-layer-temperature N
Nozzle temperature for the first layer. If you want to control temperature
manually during print, set this to zero to disable temperature control commands
in the output G-code. (°C, default: 200)
--full-fan-speed-layer N
Fan speed will be ramped up linearly from zero at layer
"disable_fan_first_layers" to maximum at layer "full_fan_speed_layer".
"full_fan_speed_layer" will be ignored if lower than "disable_fan_first_layers",
in which case the fan will be running at maximum allowed speed at layer
"disable_fan_first_layers" + 1. (default: 0)
--gcode-comments Enable this to get a commented G-code file, with each line explained by a
descriptive text. If you print from SD card, the additional weight of the file
could make your firmware slow down.
--gcode-flavor Some G/M-code commands, including temperature control and others, are not
universal. Set this option to your printer's firmware to get a compatible
output. The "No extrusion" flavor prevents PrusaSlicer from exporting any
extrusion value at all. (reprap, reprapfirmware, repetier, teacup, makerware,
marlin, marlin2, sailfish, mach3, machinekit, smoothie, no-extrusion; default:
reprap)
--gcode-label-objects
Enable this to add comments into the G-Code labeling print moves with what
object they belong to, which is useful for the Octoprint CancelObject plugin.
This settings is NOT compatible with Single Extruder Multi Material setup and
Wipe into Object / Wipe into Infill.
--gcode-resolution N
Maximum deviation of exported G-code paths from their full resolution
counterparts. Very high resolution G-code requires huge amount of RAM to slice
and preview, also a 3D printer may stutter not being able to process a high
resolution G-code in a timely manner. On the other hand, a low resolution G-code
will produce a low poly effect and because the G-code reduction is performed at
each layer independently, visible artifacts may be produced. (mm, default:
0.0125)
--gcode-substitutions ABCD
Find / replace patterns in G-code lines and substitute them. (default: )
--high-current-on-filament-swap
It may be beneficial to increase the extruder motor current during the filament
exchange sequence to allow for rapid ramming feed rates and to overcome
resistance when loading a filament with an ugly shaped tip.
--infill-acceleration N
This is the acceleration your printer will use for infill. Set zero to disable
acceleration control for infill. (mm/s², default: 0)
--infill-first This option will switch the print order of perimeters and infill, making the
latter first.
--after-layer-gcode ABCD, --layer-gcode ABCD
This custom code is inserted at every layer change, right after the Z move and
before the extruder moves to the first layer point. Note that you can use
placeholder variables for all Slic3r settings as well as [layer_num] and
[layer_z].
--max-fan-speed N This setting represents the maximum speed of your fan. (%, default: 100)
--max-layer-height N
This is the highest printable layer height for this extruder, used to cap the
variable layer height and support layer height. Maximum recommended layer height
is 75% of the extrusion width to achieve reasonable inter-layer adhesion. If set
to 0, layer height is limited to 75% of the nozzle diameter. (mm, default: 0)
--max-print-height N
Set this to the maximum height that can be reached by your extruder while
printing. (mm, default: 200)
--max-print-speed N When setting other speed settings to 0 Slic3r will autocalculate the optimal
speed in order to keep constant extruder pressure. This experimental setting is
used to set the highest print speed you want to allow. (mm/s, default: 80)
--max-volumetric-extrusion-rate-slope-negative N
This experimental setting is used to limit the speed of change in extrusion rate
for a transition from higher speed to lower speed. A value of 1.8 mm³/s²
ensures, that a change from the extrusion rate of 5.4 mm³/s (0.45 mm extrusion
width, 0.2 mm extrusion height, feedrate 60 mm/s) to 1.8 mm³/s (feedrate 20
mm/s) will take at least 2 seconds. (mm³/s², default: 0)
--max-volumetric-extrusion-rate-slope-positive N
This experimental setting is used to limit the speed of change in extrusion rate
for a transition from lower speed to higher speed. A value of 1.8 mm³/s²
ensures, that a change from the extrusion rate of 1.8 mm³/s (0.45 mm extrusion
width, 0.2 mm extrusion height, feedrate 20 mm/s) to 5.4 mm³/s (feedrate 60
mm/s) will take at least 2 seconds. (mm³/s², default: 0)
--max-volumetric-speed N
This experimental setting is used to set the maximum volumetric speed your
extruder supports. (mm³/s, default: 0)
--min-fan-speed N This setting represents the minimum PWM your fan needs to work. (%, default: 35)
--min-layer-height N
This is the lowest printable layer height for this extruder and limits the
resolution for variable layer height. Typical values are between 0.05 mm and 0.1
mm. (mm, default: 0.07)
--min-print-speed N Slic3r will not scale speed down below this speed. (mm/s, default: 10)
--min-skirt-length N
Generate no less than the number of skirt loops required to consume the
specified amount of filament on the bottom layer. For multi-extruder machines,
this minimum applies to each extruder. (mm, default: 0)
--notes ABCD You can put here your personal notes. This text will be added to the G-code
header comments.
--nozzle-diameter N This is the diameter of your extruder nozzle (for example: 0.5, 0.35 etc.) (mm,
default: 0.4)
--only-retract-when-crossing-perimeters
Disables retraction when the travel path does not exceed the upper layer's
perimeters (and thus any ooze will be probably invisible).
--ooze-prevention This option will drop the temperature of the inactive extruders to prevent
oozing. It will enable a tall skirt automatically and move extruders outside
such skirt when changing temperatures.
--output-filename-format ABCD
You can use all configuration options as variables inside this template. For
example: [layer_height], [fill_density] etc. You can also use [timestamp],
[year], [month], [day], [hour], [minute], [second], [version], [input_filename],
[input_filename_base]. (default: [input_filename_base].gcode)
--parking-pos-retraction N
Distance of the extruder tip from the position where the filament is parked when
unloaded. This should match the value in printer firmware. (mm, default: 92)
--pause-print-gcode ABCD
This G-code will be used as a code for the pause print (default: M601)
--perimeter-acceleration N
This is the acceleration your printer will use for perimeters. Set zero to
disable acceleration control for perimeters. (mm/s², default: 0)
--post-process ABCD If you want to process the output G-code through custom scripts, just list their
absolute paths here. Separate multiple scripts with a semicolon. Scripts will be
passed the absolute path to the G-code file as the first argument, and they can
access the Slic3r config settings by reading environment variables. (default: )
--preset-name ABCD
--preset-names ABCD Names of presets related to the physical printer (default: )
--printer-notes ABCD
You can put your notes regarding the printer here.
--printer-technology
Printer technology (FFF, SLA; default: FFF)
--remaining-times Emit M73 P[percent printed] R[remaining time in minutes] at 1 minute intervals
into the G-code to let the firmware show accurate remaining time. As of now only
the Prusa i3 MK3 firmware recognizes M73. Also the i3 MK3 firmware supports M73
Qxx Sxx for the silent mode.
--resolution N Minimum detail resolution, used to simplify the input file for speeding up the
slicing job and reducing memory usage. High-resolution models often carry more
detail than printers can render. Set to zero to disable any simplification and
use full resolution from input. (mm, default: 0)
--retract-before-travel N
Retraction is not triggered when travel moves are shorter than this length. (mm,
default: 2)
--retract-before-wipe
With bowden extruders, it may be wise to do some amount of quick retract before
doing the wipe movement. (%, default: 0%)
--retract-layer-change
This flag enforces a retraction whenever a Z move is done. (default: 0)
--retract-length N When retraction is triggered, filament is pulled back by the specified amount
(the length is measured on raw filament, before it enters the extruder). (mm
(zero to disable), default: 2)
--retract-length-toolchange N
When retraction is triggered before changing tool, filament is pulled back by
the specified amount (the length is measured on raw filament, before it enters
the extruder). (mm (zero to disable), default: 10)
--retract-lift N If you set this to a positive value, Z is quickly raised every time a retraction
is triggered. When using multiple extruders, only the setting for the first
extruder will be considered. (mm, default: 0)
--retract-lift-above N
If you set this to a positive value, Z lift will only take place above the
specified absolute Z. You can tune this setting for skipping lift on the first
layers. (mm, default: 0)
--retract-lift-below N
If you set this to a positive value, Z lift will only take place below the
specified absolute Z. You can tune this setting for limiting lift to the first
layers. (mm, default: 0)
--retract-restart-extra N
When the retraction is compensated after the travel move, the extruder will push
this additional amount of filament. This setting is rarely needed. (mm, default:
0)
--retract-restart-extra-toolchange N
When the retraction is compensated after changing tool, the extruder will push
this additional amount of filament. (mm, default: 0)
--retract-speed N The speed for retractions (it only applies to the extruder motor). (mm/s,
default: 40)
--silent-mode The firmware supports stealth mode
--single-extruder-multi-material
The printer multiplexes filaments into a single hot end.
--single-extruder-multi-material-priming
If enabled, all printing extruders will be primed at the front edge of the print
bed at the start of the print.
--skirt-distance N Distance between skirt and brim (when draft shield is not used) or objects. (mm,
default: 6)
--skirt-height N Height of skirt expressed in layers. (layers, default: 1)
--skirts N Number of loops for the skirt. If the Minimum Extrusion Length option is set,
the number of loops might be greater than the one configured here. Set this to
zero to disable skirt completely. (default: 1)
--slowdown-below-layer-time N
If layer print time is estimated below this number of seconds, print moves speed
will be scaled down to extend duration to this value. (approximate seconds,
default: 5)
--solid-layers N Number of solid layers to generate on top and bottom surfaces.
--solid-min-thickness N
Minimum thickness of a top / bottom shell
--spiral-vase This feature will raise Z gradually while printing a single-walled object in
order to remove any visible seam. This option requires a single perimeter, no
infill, no top solid layers and no support material. You can still set any
number of bottom solid layers as well as skirt/brim loops. It won't work when
printing more than one single object.
--standby-temperature-delta N
Temperature difference to be applied when an extruder is not active. Enables a
full-height "sacrificial" skirt on which the nozzles are periodically wiped.
(∆°C, default: -5)
--start-filament-gcode ABCD
This start procedure is inserted at the beginning, after any printer start gcode
(and after any toolchange to this filament in case of multi-material printers).
This is used to override settings for a specific filament. If PrusaSlicer
detects M104, M109, M140 or M190 in your custom codes, such commands will not be
prepended automatically so you're free to customize the order of heating
commands and other custom actions. Note that you can use placeholder variables
for all PrusaSlicer settings, so you can put a "M109 S[first_layer_temperature]"
command wherever you want. If you have multiple extruders, the gcode is
processed in extruder order. (default: "; Filament gcode\n")
--start-gcode ABCD This start procedure is inserted at the beginning, after bed has reached the
target temperature and extruder just started heating, and before extruder has
finished heating. If PrusaSlicer detects M104 or M190 in your custom codes, such
commands will not be prepended automatically so you're free to customize the
order of heating commands and other custom actions. Note that you can use
placeholder variables for all PrusaSlicer settings, so you can put a "M109
S[first_layer_temperature]" command wherever you want. (default: G28 ; home all
axes\nG1 Z5 F5000 ; lift nozzle\n)
--temperature N Nozzle temperature for layers after the first one. Set this to zero to disable
temperature control commands in the output G-code. (°C, default: 200)
--template-custom-gcode ABCD
This G-code will be used as a custom code
--thumbnails Picture sizes to be stored into a .gcode and .sl1 / .sl1s files, in the
following format: "XxY, XxY, ..." (default: )
--thumbnails-format Format of G-code thumbnails: PNG for best quality, JPG for smallest size, QOI
for low memory firmware (PNG, JPG, QOI; default: PNG)
--toolchange-gcode ABCD
This custom code is inserted before every toolchange. Placeholder variables for
all PrusaSlicer settings as well as {toolchange_z}, {previous_extruder} and
{next_extruder} can be used. When a tool-changing command which changes to the
correct extruder is included (such as T{next_extruder}), PrusaSlicer will emit
no other such command. It is therefore possible to script custom behaviour both
before and after the toolchange.
--travel-speed N Speed for travel moves (jumps between distant extrusion points). (mm/s, default:
130)
--travel-speed-z N Speed for movements along the Z axis. When set to zero, the value is ignored and
regular travel speed is used instead. (mm/s, default: 0)
--use-firmware-retraction
This experimental setting uses G10 and G11 commands to have the firmware handle
the retraction. This is only supported in recent Marlin.
--use-relative-e-distances
If your firmware requires relative E values, check this, otherwise leave it
unchecked. Most firmwares use absolute values.
--use-volumetric-e This experimental setting uses outputs the E values in cubic millimeters instead
of linear millimeters. If your firmware doesn't already know filament
diameter(s), you can put commands like 'M200 D[filament_diameter_0] T0' in your
start G-code in order to turn volumetric mode on and use the filament diameter
associated to the filament selected in Slic3r. This is only supported in recent
Marlin.
--variable-layer-height
Some printers or printer setups may have difficulties printing with a variable
layer height. Enabled by default.
--wipe This flag will move the nozzle while retracting to minimize the possible blob on
leaky extruders. (default: 0)
--wipe-tower Multi material printers may need to prime or purge extruders on tool changes.
Extrude the excess material into the wipe tower.
--wipe-tower-bridging N
Maximal distance between supports on sparse infill sections. (mm, default: 10)
--wipe-tower-brim-width N
Wipe tower brim width (mm, default: 2)
--wipe-tower-no-sparse-layers
If enabled, the wipe tower will not be printed on layers with no toolchanges. On
layers with a toolchange, extruder will travel downward to print the wipe tower.
User is responsible for ensuring there is no collision with the print.
--wipe-tower-rotation-angle N
Wipe tower rotation angle with respect to x-axis. (°, default: 0)
--wipe-tower-width N
Width of a wipe tower (mm, default: 60)
--wipe-tower-x N X coordinate of the left front corner of a wipe tower (mm, default: 180)
--wipe-tower-y N Y coordinate of the left front corner of a wipe tower (mm, default: 140)
--wiping-volumes-extruders N
This vector saves required volumes to change from/to each tool used on the wipe
tower. These values are used to simplify creation of the full purging volumes
below. (default: 70,70,70,70,70,70,70,70,70,70)
--wiping-volumes-matrix N
This matrix describes volumes (in cubic milimetres) required to purge the new
filament on the wipe tower for any given pair of tools. (default:
0,140,140,140,140,140,0,140,140,140,140,140,0,140,140,140,140,140,0,140,140,140,140,140,0)
--z-offset N This value will be added (or subtracted) from all the Z coordinates in the
output G-code. It is used to compensate for bad Z endstop position: for example,
if your endstop zero actually leaves the nozzle 0.3mm far from the print bed,
set this to -0.3 (or fix your endstop). (mm, default: 0)
Advanced:
--bridge-flow-ratio N
This factor affects the amount of plastic for bridging. You can decrease it
slightly to pull the extrudates and prevent sagging, although default settings
are usually good and you should experiment with cooling (use a fan) before
tweaking this. (default: 1)
--elefant-foot-compensation N
The first layer will be shrunk in the XY plane by the configured value to
compensate for the 1st layer squish aka an Elephant Foot effect. (mm, default:
0)
--infill-anchor N Connect an infill line to an internal perimeter with a short segment of an
additional perimeter. If expressed as percentage (example: 15%) it is calculated
over infill extrusion width. PrusaSlicer tries to connect two close infill lines
to a short perimeter segment. If no such perimeter segment shorter than
infill_anchor_max is found, the infill line is connected to a perimeter segment
at just one side and the length of the perimeter segment taken is limited to
this parameter, but no longer than anchor_length_max. Set this parameter to zero
to disable anchoring perimeters connected to a single infill line. (mm or %,
default: 600%)
--infill-anchor-max N
Connect an infill line to an internal perimeter with a short segment of an
additional perimeter. If expressed as percentage (example: 15%) it is calculated
over infill extrusion width. PrusaSlicer tries to connect two close infill lines
to a short perimeter segment. If no such perimeter segment shorter than this
parameter is found, the infill line is connected to a perimeter segment at just
one side and the length of the perimeter segment taken is limited to
infill_anchor, but no longer than this parameter. Set this parameter to zero to
disable anchoring. (mm or %, default: 50)
--infill-overlap N This setting applies an additional overlap between infill and perimeters for
better bonding. Theoretically this shouldn't be needed, but backlash might cause
gaps. If expressed as percentage (example: 15%) it is calculated over perimeter
extrusion width. (mm or %, default: 25%)
--min-bead-width N Width of the perimeter that will replace thin features (according to the Minimum
feature size) of the model. If the Minimum perimeter width is thinner than the
thickness of the feature, the perimeter will become as thick as the feature
itself. If expressed as a percentage (for example 85%), it will be computed
based on the nozzle diameter. (mm or %, default: 85%)
--min-feature-size N
Minimum thickness of thin features. Model features that are thinner than this
value will not be printed, while features thicker than the Minimum feature size
will be widened to the Minimum perimeter width. If expressed as a percentage
(for example 25%), it will be computed based on the nozzle diameter. (mm or %,
default: 25%)
--mmu-segmented-region-max-width N
Maximum width of a segmented region. Zero disables this feature. (mm (zero to
disable), default: 0)
--slice-closing-radius N
Cracks smaller than 2x gap closing radius are being filled during the triangle
mesh slicing. The gap closing operation may reduce the final print resolution,
therefore it is advisable to keep the value reasonably low. (mm, default: 0.049)
--slicing-mode Use "Even-odd" for 3DLabPrint airplane models. Use "Close holes" to close all
holes in the model. (regular, even_odd, close_holes; default: regular)
--wall-distribution-count N
The number of perimeters, counted from the center, over which the variation
needs to be spread. Lower values mean that the outer perimeters don't change in
width. (default: 1)
--wall-transition-angle N
When to create transitions between even and odd numbers of perimeters. A wedge
shape with an angle greater than this setting will not have transitions and no
perimeters will be printed in the center to fill the remaining space. Reducing
this setting reduces the number and length of these center perimeters, but may
leave gaps or overextrude. (°, default: 10)
--wall-transition-filter-deviation N
Prevent transitioning back and forth between one extra perimeter and one less.
This margin extends the range of extrusion widths which follow to [Minimum
perimeter width - margin, 2 * Minimum perimeter width + margin]. Increasing this
margin reduces the number of transitions, which reduces the number of extrusion
starts/stops and travel time. However, large extrusion width variation can lead
to under- or overextrusion problems. If expressed as a percentage (for example
25%), it will be computed based on the nozzle diameter. (mm or %, default: 25%)
--wall-transition-length N
When transitioning between different numbers of perimeters as the part becomes
thinner, a certain amount of space is allotted to split or join the perimeter
segments. If expressed as a percentage (for example 100%), it will be computed
based on the nozzle diameter. (mm or %, default: 100%)
--xy-size-compensation N
The object will be grown/shrunk in the XY plane by the configured value
(negative = inwards, positive = outwards). This might be useful for fine-tuning
hole sizes. (mm, default: 0)
Extruders:
--extruder N The extruder to use (unless more specific extruder settings are specified). This
value overrides perimeter and infill extruders, but not the support extruders.
--infill-extruder N The extruder to use when printing infill. (default: 1)
--perimeter-extruder N
The extruder to use when printing perimeters and brim. First extruder is 1.
(default: 1)
--solid-infill-extruder N
The extruder to use when printing solid infill. (default: 1)
--support-material-extruder N
The extruder to use when printing support material, raft and skirt (1+, 0 to use
the current extruder to minimize tool changes). (default: 1)
--support-material-interface-extruder N
The extruder to use when printing support material interface (1+, 0 to use the
current extruder to minimize tool changes). This affects raft too. (default: 1)
Extrusion Width:
--external-perimeter-extrusion-width N
Set this to a non-zero value to set a manual extrusion width for external
perimeters. If left zero, default extrusion width will be used if set, otherwise
1.125 x nozzle diameter will be used. If expressed as percentage (for example
200%), it will be computed over layer height. (mm or %, default: 0)
--extrusion-width N Set this to a non-zero value to allow a manual extrusion width. If left to zero,
Slic3r derives extrusion widths from the nozzle diameter (see the tooltips for
perimeter extrusion width, infill extrusion width etc). If expressed as
percentage (for example: 230%), it will be computed over layer height. (mm or %,
default: 0)
--first-layer-extrusion-width N
Set this to a non-zero value to set a manual extrusion width for first layer.
You can use this to force fatter extrudates for better adhesion. If expressed as
percentage (for example 120%) it will be computed over first layer height. If
set to zero, it will use the default extrusion width. (mm or %, default: 200%)
--infill-extrusion-width N
Set this to a non-zero value to set a manual extrusion width for infill. If left
zero, default extrusion width will be used if set, otherwise 1.125 x nozzle
diameter will be used. You may want to use fatter extrudates to speed up the
infill and make your parts stronger. If expressed as percentage (for example
90%) it will be computed over layer height. (mm or %, default: 0)
--perimeter-extrusion-width N
Set this to a non-zero value to set a manual extrusion width for perimeters. You
may want to use thinner extrudates to get more accurate surfaces. If left zero,
default extrusion width will be used if set, otherwise 1.125 x nozzle diameter
will be used. If expressed as percentage (for example 200%) it will be computed
over layer height. (mm or %, default: 0)
--solid-infill-extrusion-width N
Set this to a non-zero value to set a manual extrusion width for infill for
solid surfaces. If left zero, default extrusion width will be used if set,
otherwise 1.125 x nozzle diameter will be used. If expressed as percentage (for
example 90%) it will be computed over layer height. (mm or %, default: 0)
--support-material-extrusion-width N
Set this to a non-zero value to set a manual extrusion width for support
material. If left zero, default extrusion width will be used if set, otherwise
nozzle diameter will be used. If expressed as percentage (for example 90%) it
will be computed over layer height. (mm or %, default: 0)
--top-infill-extrusion-width N
Set this to a non-zero value to set a manual extrusion width for infill for top
surfaces. You may want to use thinner extrudates to fill all narrow regions and
get a smoother finish. If left zero, default extrusion width will be used if
set, otherwise nozzle diameter will be used. If expressed as percentage (for
example 90%) it will be computed over layer height. (mm or %, default: 0)
Fuzzy Skin:
--fuzzy-skin Fuzzy skin type. (none, external, all; default: none)
--fuzzy-skin-point-dist N
Perimeters will be split into multiple segments by inserting Fuzzy skin points.
Lowering the Fuzzy skin point distance will increase the number of randomly
offset points on the perimeter wall. (mm, default: 0.8)
--fuzzy-skin-thickness N
The maximum distance that each skin point can be offset (both ways), measured
perpendicular to the perimeter wall. (mm, default: 0.3)
Infill:
--bottom-fill-pattern, --external-fill-pattern, --solid-fill-pattern
Fill pattern for bottom infill. This only affects the bottom external visible
layer, and not its adjacent solid shells. (rectilinear, monotonic,
alignedrectilinear, concentric, hilbertcurve, archimedeanchords, octagramspiral;
default: monotonic)
--bridge-angle N Bridging angle override. If left to zero, the bridging angle will be calculated
automatically. Otherwise the provided angle will be used for all bridges. Use
180° for zero angle. (°, default: 0)
--fill-angle N Default base angle for infill orientation. Cross-hatching will be applied to
this. Bridges will be infilled using the best direction Slic3r can detect, so
this setting does not affect them. (°, default: 45)
--fill-density Density of internal infill, expressed in the range 0% - 100%. (%, default: 20%)
--fill-pattern Fill pattern for general low-density infill. (rectilinear, alignedrectilinear,
grid, triangles, stars, cubic, line, concentric, honeycomb, 3dhoneycomb, gyroid,
hilbertcurve, archimedeanchords, octagramspiral, adaptivecubic, supportcubic,
lightning; default: stars)
--infill-every-layers N
This feature allows to combine infill and speed up your print by extruding
thicker infill layers while preserving thin perimeters, thus accuracy. (layers,
default: 1)
--infill-only-where-needed
This option will limit infill to the areas actually needed for supporting
ceilings (it will act as internal support material). If enabled, slows down the
G-code generation due to the multiple checks involved.
--solid-infill-below-area N
Force solid infill for regions having a smaller area than the specified
threshold. (mm², default: 70)
--solid-infill-every-layers N
This feature allows to force a solid layer every given number of layers. Zero to
disable. You can set this to any value (for example 9999); Slic3r will
automatically choose the maximum possible number of layers to combine according
to nozzle diameter and layer height. (layers, default: 0)
--top-fill-pattern, --external-fill-pattern, --solid-fill-pattern
Fill pattern for top infill. This only affects the top visible layer, and not
its adjacent solid shells. (rectilinear, monotonic, alignedrectilinear,
concentric, hilbertcurve, archimedeanchords, octagramspiral; default: monotonic)
Ironing:
--ironing Enable ironing of the top layers with the hot print head for smooth surface
--ironing-flowrate Percent of a flow rate relative to object's normal layer height. (%, default:
15%)
--ironing-spacing N Distance between ironing lines (mm, default: 0.1)
--ironing-type Ironing Type (top, topmost, solid; default: top)
Layers and Perimeters:
--avoid-crossing-perimeters-max-detour N
The maximum detour length for avoid crossing perimeters. If the detour is longer
than this value, avoid crossing perimeters is not applied for this travel path.
Detour length could be specified either as an absolute value or as percentage
(for example 50%) of a direct travel path. (mm or % (zero to disable), default:
0)
--bottom-solid-layers N
Number of solid layers to generate on bottom surfaces. (default: 3)
--bottom-solid-min-thickness N
The number of bottom solid layers is increased above bottom_solid_layers if
necessary to satisfy minimum thickness of bottom shell. (mm, default: 0)
--ensure-vertical-shell-thickness
Add solid infill near sloping surfaces to guarantee the vertical shell thickness
(top+bottom solid layers).
--external-perimeters-first
Print contour perimeters from the outermost one to the innermost one instead of
the default inverse order.
--extra-perimeters Add more perimeters when needed for avoiding gaps in sloping walls. Slic3r keeps
adding perimeters, until more than 70% of the loop immediately above is
supported.
--first-layer-height N
When printing with very low layer heights, you might still want to print a
thicker bottom layer to improve adhesion and tolerance for non perfect build
plates. (mm, default: 0.35)
--gap-fill-enabled Enables filling of gaps between perimeters and between the inner most perimeters
and infill.
--interface-shells Force the generation of solid shells between adjacent materials/volumes. Useful
for multi-extruder prints with translucent materials or manual soluble support
material.
--layer-height N This setting controls the height (and thus the total number) of the
slices/layers. Thinner layers give better accuracy but take more time to print.
(mm, default: 0.3)
--overhangs Experimental option to adjust flow for overhangs (bridge flow will be used), to
apply bridge speed to them and enable fan.
--perimeter-generator
Classic perimeter generator produces perimeters with constant extrusion width
and for very thin areas is used gap-fill. Arachne engine produces perimeters
with variable extrusion width. This setting also affects the Concentric infill.
(classic, arachne; default: arachne)
--perimeters N This option sets the number of perimeters to generate for each layer. Note that
Slic3r may increase this number automatically when it detects sloping surfaces
which benefit from a higher number of perimeters if the Extra Perimeters option
is enabled. ((minimum), default: 3)
--seam-position Position of perimeters starting points. (random, nearest, aligned, rear;
default: aligned)
--thick-bridges If enabled, bridges are more reliable, can bridge longer distances, but may look
worse. If disabled, bridges look better but are reliable just for shorter
bridged distances.
--thin-walls Detect single-width walls (parts where two extrusions don't fit and we need to
collapse them into a single trace).
--top-solid-layers N
Number of solid layers to generate on top surfaces. (default: 3)
--top-solid-min-thickness N
The number of top solid layers is increased above top_solid_layers if necessary
to satisfy minimum thickness of top shell. This is useful to prevent pillowing
effect when printing with variable layer height. (mm, default: 0)
Machine limits:
--machine-limits-usage
How to apply the Machine Limits (emit_to_gcode, time_estimate_only, ignore;
default: time_estimate_only)
--machine-max-acceleration-e N
Maximum acceleration of the E axis (mm/s², default: 10000,5000)
--machine-max-acceleration-extruding N
Maximum acceleration when extruding (M204 P) Marlin (legacy) firmware flavor
will use this also as travel acceleration (M204 T). (mm/s², default: 1500,1250)
--machine-max-acceleration-retracting N
Maximum acceleration when retracting (M204 R) (mm/s², default: 1500,1250)
--machine-max-acceleration-travel N
Maximum acceleration for travel moves (M204 T) (mm/s², default: 1500,1250)
--machine-max-acceleration-x N
Maximum acceleration of the X axis (mm/s², default: 9000,1000)
--machine-max-acceleration-y N
Maximum acceleration of the Y axis (mm/s², default: 9000,1000)
--machine-max-acceleration-z N
Maximum acceleration of the Z axis (mm/s², default: 500,200)
--machine-max-feedrate-e N
Maximum feedrate of the E axis (mm/s, default: 120,120)
--machine-max-feedrate-x N
Maximum feedrate of the X axis (mm/s, default: 500,200)
--machine-max-feedrate-y N
Maximum feedrate of the Y axis (mm/s, default: 500,200)
--machine-max-feedrate-z N
Maximum feedrate of the Z axis (mm/s, default: 12,12)
--machine-max-jerk-e N
Maximum jerk of the E axis (mm/s, default: 2.5,2.5)
--machine-max-jerk-x N
Maximum jerk of the X axis (mm/s, default: 10,10)
--machine-max-jerk-y N
Maximum jerk of the Y axis (mm/s, default: 10,10)
--machine-max-jerk-z N
Maximum jerk of the Z axis (mm/s, default: 0.2,0.4)
--machine-min-extruding-rate N
Minimum feedrate when extruding (M205 S) (mm/s, default: 0,0)
--machine-min-travel-rate N
Minimum travel feedrate (M205 T) (mm/s, default: 0,0)
Skirt and brim:
--brim-separation N Offset of brim from the printed object. The offset is applied after the elephant
foot compensation. (mm, default: 0)
--brim-type The places where the brim will be printed around each object on the first layer.
(no_brim, outer_only, inner_only, outer_and_inner; default: outer_only)
--brim-width N The horizontal width of the brim that will be printed around each object on the
first layer. When raft is used, no brim is generated (use
raft_first_layer_expansion). (mm, default: 0)
Speed:
--bridge-speed N Speed for printing bridges. (mm/s, default: 60)
--external-perimeter-speed N
This separate setting will affect the speed of external perimeters (the visible
ones). If expressed as percentage (for example: 80%) it will be calculated on
the perimeters speed setting above. Set to zero for auto. (mm/s or %, default:
50%)
--gap-fill-speed N Speed for filling small gaps using short zigzag moves. Keep this reasonably low
to avoid too much shaking and resonance issues. Set zero to disable gaps
filling. (mm/s, default: 20)
--infill-speed N Speed for printing the internal fill. Set to zero for auto. (mm/s, default: 80)
--ironing-speed N Ironing (mm/s, default: 15)
--perimeter-speed N Speed for perimeters (contours, aka vertical shells). Set to zero for auto.
(mm/s, default: 60)
--small-perimeter-speed N
This separate setting will affect the speed of perimeters having radius <= 6.5mm
(usually holes). If expressed as percentage (for example: 80%) it will be
calculated on the perimeters speed setting above. Set to zero for auto. (mm/s or
%, default: 15)
--solid-infill-speed N
Speed for printing solid regions (top/bottom/internal horizontal shells). This
can be expressed as a percentage (for example: 80%) over the default infill
speed above. Set to zero for auto. (mm/s or %, default: 20)
--top-solid-infill-speed N
Speed for printing top solid layers (it only applies to the uppermost external
layers and not to their internal solid layers). You may want to slow down this
to get a nicer surface finish. This can be expressed as a percentage (for
example: 80%) over the solid infill speed above. Set to zero for auto. (mm/s or
%, default: 15)
Support material:
--dont-support-bridges
Experimental option for preventing support material from being generated under
bridged areas.
--raft-contact-distance N
The vertical distance between object and raft. Ignored for soluble interface.
(mm, default: 0.1)
--raft-expansion N Expansion of the raft in XY plane for better stability. (mm, default: 1.5)
--raft-first-layer-density
Density of the first raft or support layer. (%, default: 90%)
--raft-first-layer-expansion N
Expansion of the first raft or support layer to improve adhesion to print bed.
(mm, default: 3)
--raft-layers N The object will be raised by this number of layers, and support material will be
generated under it. (layers, default: 0)
--support-material Enable support material generation.
--support-material-angle N
Use this setting to rotate the support material pattern on the horizontal plane.
(°, default: 0)
--support-material-auto
If checked, supports will be generated automatically based on the overhang
threshold value. If unchecked, supports will be generated inside the "Support
Enforcer" volumes only.
--support-material-bottom-contact-distance N
The vertical distance between the object top surface and the support material
interface. If set to zero, support_material_contact_distance will be used for
both top and bottom contact Z distances. (mm, default: 0)
--support-material-bottom-interface-layers N
Number of interface layers to insert between the object(s) and support material.
Set to -1 to use support_material_interface_layers (layers, default: -1)
--support-material-buildplate-only
Only create support if it lies on a build plate. Don't create support on a
print.
--support-material-closing-radius N
For snug supports, the support regions will be merged using morphological
closing operation. Gaps smaller than the closing radius will be filled in. (mm,
default: 2)
--support-material-contact-distance N
The vertical distance between object and support material interface. Setting
this to 0 will also prevent Slic3r from using bridge flow and speed for the
first object layer. (mm, default: 0.2)
--support-material-enforce-layers N
Generate support material for the specified number of layers counting from
bottom, regardless of whether normal support material is enabled or not and
regardless of any angle threshold. This is useful for getting more adhesion of
objects having a very thin or poor footprint on the build plate. (layers,
default: 0)
--support-material-interface-contact-loops
Cover the top contact layer of the supports with loops. Disabled by default.
--support-material-interface-layers N
Number of interface layers to insert between the object(s) and support material.
(layers, default: 3)
--support-material-interface-pattern
Pattern used to generate support material interface. Default pattern for
non-soluble support interface is Rectilinear, while default pattern for soluble
support interface is Concentric. (auto, rectilinear, concentric; default:
rectilinear)
--support-material-interface-spacing N
Spacing between interface lines. Set zero to get a solid interface. (mm,
default: 0)
--support-material-interface-speed N
Speed for printing support material interface layers. If expressed as percentage
(for example 50%) it will be calculated over support material speed. (mm/s or %,
default: 100%)
--support-material-pattern
Pattern used to generate support material. (rectilinear, rectilinear-grid,
honeycomb; default: rectilinear)
--support-material-spacing N
Spacing between support material lines. (mm, default: 2.5)
--support-material-speed N
Speed for printing support material. (mm/s, default: 60)
--support-material-style
Style and shape of the support towers. Projecting the supports into a regular
grid will create more stable supports, while snug support towers will save
material and reduce object scarring. (grid, snug; default: grid)
--support-material-synchronize-layers
Synchronize support layers with the object print layers. This is useful with
multi-material printers, where the extruder switch is expensive.
--support-material-threshold N
Support material will not be generated for overhangs whose slope angle (90° =
vertical) is above the given threshold. In other words, this value represent the
most horizontal slope (measured from the horizontal plane) that you can print
without support material. Set to zero for automatic detection (recommended).
(°, default: 0)
--support-material-with-sheath
Add a sheath (a single perimeter line) around the base support. This makes the
support more reliable, but also more difficult to remove.
--support-material-xy-spacing N
XY separation between an object and its support. If expressed as percentage (for
example 50%), it will be calculated over external perimeter width. (mm or %,
default: 50%)
Wipe options:
--wipe-into-infill Purging after toolchange will be done inside this object's infills. This lowers
the amount of waste but may result in longer print time due to additional travel
moves.
--wipe-into-objects Object will be used to purge the nozzle after a toolchange to save material that
would otherwise end up in the wipe tower and decrease print time. Colours of the
objects will be mixed as a result.

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--avoid-crossing-perimeters
Optimize travel moves in order to minimize the crossing of perimeters. This is
mostly useful with Bowden extruders which suffer from oozing. This feature slows
down both the print and the G-code generation.
--bed-custom-model ABCD
--bed-custom-texture ABCD
--bed-shape (default: 0x0,200x0,200x200,0x200)
--bed-temperature N Bed temperature for layers after the first one. Set this to zero to disable bed
temperature control commands in the output. (°C, default: 0)
--before-layer-gcode ABCD
This custom code is inserted at every layer change, right before the Z move.
Note that you can use placeholder variables for all Slic3r settings as well as
[layer_num] and [layer_z].
--between-objects-gcode ABCD
This code is inserted between objects when using sequential printing. By default
extruder and bed temperature are reset using non-wait command; however if M104,
M109, M140 or M190 are detected in this custom code, Slic3r will not add
temperature commands. Note that you can use placeholder variables for all Slic3r
settings, so you can put a "M109 S[first_layer_temperature]" command wherever
you want.
--bridge-acceleration N
This is the acceleration your printer will use for bridges. Set zero to disable
acceleration control for bridges. (mm/s², default: 0)
--bridge-fan-speed N
This fan speed is enforced during all bridges and overhangs. (%, default: 100)
--clip-multipart-objects
When printing multi-material objects, this settings will make Slic3r to clip the
overlapping object parts one by the other (2nd part will be clipped by the 1st,
3rd part will be clipped by the 1st and 2nd etc).
--color-change-gcode ABCD
This G-code will be used as a code for the color change (default: M600)
--colorprint-heights N
Heights at which a filament change is to occur. (default: )
--complete-objects When printing multiple objects or copies, this feature will complete each object
before moving onto next one (and starting it from its bottom layer). This
feature is useful to avoid the risk of ruined prints. Slic3r should warn and
prevent you from extruder collisions, but beware.
--cooling This flag enables the automatic cooling logic that adjusts print speed and fan
speed according to layer printing time. (default: 1)
--cooling-tube-length N
Length of the cooling tube to limit space for cooling moves inside it. (mm,
default: 5)
--cooling-tube-retraction N
Distance of the center-point of the cooling tube from the extruder tip. (mm,
default: 91.5)
--default-acceleration N
This is the acceleration your printer will be reset to after the role-specific
acceleration values are used (perimeter/infill). Set zero to prevent resetting
acceleration at all. (mm/s², default: 0)
--deretract-speed N The speed for loading of a filament into extruder after retraction (it only
applies to the extruder motor). If left to zero, the retraction speed is used.
(mm/s, default: 0)
--disable-fan-first-layers N
You can set this to a positive value to disable fan at all during the first
layers, so that it does not make adhesion worse. (layers, default: 3)
--draft-shield With draft shield active, the skirt will be printed skirt_distance from the
object, possibly intersecting brim. Enabled = skirt is as tall as the highest
printed object. Limited = skirt is as tall as specified by skirt_height. This is
useful to protect an ABS or ASA print from warping and detaching from print bed
due to wind draft. (disabled, limited, enabled; default: disabled)
--duplicate-distance N
Distance used for the auto-arrange feature of the plater. (mm, default: 6)
--end-filament-gcode ABCD
This end procedure is inserted at the end of the output file, before the printer
end gcode (and before any toolchange from this filament in case of multimaterial
printers). Note that you can use placeholder variables for all PrusaSlicer
settings. If you have multiple extruders, the gcode is processed in extruder
order. (default: "; Filament-specific end gcode \n;END gcode for filament\n")
--end-gcode ABCD This end procedure is inserted at the end of the output file. Note that you can
use placeholder variables for all PrusaSlicer settings. (default: M104 S0 ; turn
off temperature\nG28 X0 ; home X axis\nM84 ; disable motors\n)
--extra-loading-move N
When set to zero, the distance the filament is moved from parking position
during load is exactly the same as it was moved back during unload. When
positive, it is loaded further, if negative, the loading move is shorter than
unloading. (mm, default: -2)
--extruder-clearance-height N
Set this to the vertical distance between your nozzle tip and (usually) the X
carriage rods. In other words, this is the height of the clearance cylinder
around your extruder, and it represents the maximum depth the extruder can peek
before colliding with other printed objects. (mm, default: 20)
--extruder-clearance-radius N
Set this to the clearance radius around your extruder. If the extruder is not
centered, choose the largest value for safety. This setting is used to check for
collisions and to display the graphical preview in the plater. (mm, default: 20)
--extruder-colour ABCD
This is only used in the Slic3r interface as a visual help. (default: "")
--extruder-offset If your firmware doesn't handle the extruder displacement you need the G-code to
take it into account. This option lets you specify the displacement of each
extruder with respect to the first one. It expects positive coordinates (they
will be subtracted from the XY coordinate). (mm, default: 0x0)
--extrusion-axis ABCD
Use this option to set the axis letter associated to your printer's extruder
(usually E but some printers use A). (default: E)
--extrusion-multiplier N
This factor changes the amount of flow proportionally. You may need to tweak
this setting to get nice surface finish and correct single wall widths. Usual
values are between 0.9 and 1.1. If you think you need to change this more, check
filament diameter and your firmware E steps. (default: 1)
--fan-always-on If this is enabled, fan will never be disabled and will be kept running at least
at its minimum speed. Useful for PLA, harmful for ABS. (default: 0)
--fan-below-layer-time N
If layer print time is estimated below this number of seconds, fan will be
enabled and its speed will be calculated by interpolating the minimum and
maximum speeds. (approximate seconds, default: 60)
--filament-colour ABCD
This is only used in the Slic3r interface as a visual help. (default: #29B2B2)
--filament-cooling-final-speed N
Cooling moves are gradually accelerating towards this speed. (mm/s, default:
3.4)
--filament-cooling-initial-speed N
Cooling moves are gradually accelerating beginning at this speed. (mm/s,
default: 2.2)
--filament-cooling-moves N
Filament is cooled by being moved back and forth in the cooling tubes. Specify
desired number of these moves. (default: 4)
--filament-cost N Enter your filament cost per kg here. This is only for statistical information.
(money/kg, default: 0)
--filament-density N
Enter your filament density here. This is only for statistical information. A
decent way is to weigh a known length of filament and compute the ratio of the
length to volume. Better is to calculate the volume directly through
displacement. (g/cm³, default: 0)
--filament-deretract-speed N
The speed for loading of a filament into extruder after retraction (it only
applies to the extruder motor). If left to zero, the retraction speed is used.
(mm/s, default: 0)
--filament-diameter N
Enter your filament diameter here. Good precision is required, so use a caliper
and do multiple measurements along the filament, then compute the average. (mm,
default: 1.75)
--filament-load-time N
Time for the printer firmware (or the Multi Material Unit 2.0) to load a new
filament during a tool change (when executing the T code). This time is added to
the total print time by the G-code time estimator. (s, default: 0)
--filament-loading-speed N
Speed used for loading the filament on the wipe tower. (mm/s, default: 28)
--filament-loading-speed-start N
Speed used at the very beginning of loading phase. (mm/s, default: 3)
--filament-max-volumetric-speed N
Maximum volumetric speed allowed for this filament. Limits the maximum
volumetric speed of a print to the minimum of print and filament volumetric
speed. Set to zero for no limit. (mm³/s, default: 0)
--filament-minimal-purge-on-wipe-tower N
After a tool change, the exact position of the newly loaded filament inside the
nozzle may not be known, and the filament pressure is likely not yet stable.
Before purging the print head into an infill or a sacrificial object, Slic3r
will always prime this amount of material into the wipe tower to produce
successive infill or sacrificial object extrusions reliably. (mm³, default: 15)
--filament-notes ABCD
You can put your notes regarding the filament here. (default: "")
--filament-ramming-parameters ABCD
This string is edited by RammingDialog and contains ramming specific parameters.
(default: "120 100 6.6 6.8 7.2 7.6 7.9 8.2 8.7 9.4 9.9 10.0| 0.05 6.6 0.45 6.8
0.95 7.8 1.45 8.3 1.95 9.7 2.45 10 2.95 7.6 3.45 7.6 3.95 7.6 4.45 7.6 4.95
7.6")
--filament-retract-before-travel N
Retraction is not triggered when travel moves are shorter than this length. (mm,
default: 2)
--filament-retract-before-wipe
With bowden extruders, it may be wise to do some amount of quick retract before
doing the wipe movement. (%, default: 0%)
--filament-retract-layer-change
This flag enforces a retraction whenever a Z move is done. (default: 0)
--filament-retract-length N
When retraction is triggered, filament is pulled back by the specified amount
(the length is measured on raw filament, before it enters the extruder). (mm
(zero to disable), default: 2)
--filament-retract-lift N
If you set this to a positive value, Z is quickly raised every time a retraction
is triggered. When using multiple extruders, only the setting for the first
extruder will be considered. (mm, default: 0)
--filament-retract-lift-above N
If you set this to a positive value, Z lift will only take place above the
specified absolute Z. You can tune this setting for skipping lift on the first
layers. (mm, default: 0)
--filament-retract-lift-below N
If you set this to a positive value, Z lift will only take place below the
specified absolute Z. You can tune this setting for limiting lift to the first
layers. (mm, default: 0)
--filament-retract-restart-extra N
When the retraction is compensated after the travel move, the extruder will push
this additional amount of filament. This setting is rarely needed. (mm, default:
0)
--filament-retract-speed N
The speed for retractions (it only applies to the extruder motor). (mm/s,
default: 40)
--filament-soluble Soluble material is most likely used for a soluble support. (default: 0)
--filament-spool-weight N
Enter weight of the empty filament spool. One may weigh a partially consumed
filament spool before printing and one may compare the measured weight with the
calculated weight of the filament with the spool to find out whether the amount
of filament on the spool is sufficient to finish the print. (g, default: 0)
--filament-toolchange-delay N
Time to wait after the filament is unloaded. May help to get reliable
toolchanges with flexible materials that may need more time to shrink to
original dimensions. (s, default: 0)
--filament-type ABCD
The filament material type for use in custom G-codes. (PLA, PET, ABS, ASA, FLEX,
HIPS, EDGE, NGEN, PA, NYLON, PVA, PC, PP, PEI, PEEK, PEKK, POM, PSU, PVDF,
SCAFF; default: PLA)
--filament-unload-time N
Time for the printer firmware (or the Multi Material Unit 2.0) to unload a
filament during a tool change (when executing the T code). This time is added to
the total print time by the G-code time estimator. (s, default: 0)
--filament-unloading-speed N
Speed used for unloading the filament on the wipe tower (does not affect initial
part of unloading just after ramming). (mm/s, default: 90)
--filament-unloading-speed-start N
Speed used for unloading the tip of the filament immediately after ramming.
(mm/s, default: 100)
--filament-wipe This flag will move the nozzle while retracting to minimize the possible blob on
leaky extruders. (default: 0)
--first-layer-acceleration N
This is the acceleration your printer will use for first layer. Set zero to
disable acceleration control for first layer. (mm/s², default: 0)
--first-layer-acceleration-over-raft N
This is the acceleration your printer will use for first layer of object above
raft interface. Set zero to disable acceleration control for first layer of
object above raft interface. (mm/s², default: 0)
--first-layer-bed-temperature N
Heated build plate temperature for the first layer. Set this to zero to disable
bed temperature control commands in the output. (°C, default: 0)
--first-layer-speed N
If expressed as absolute value in mm/s, this speed will be applied to all the
print moves of the first layer, regardless of their type. If expressed as a
percentage (for example: 40%) it will scale the default speeds. (mm/s or %,
default: 30)
--first-layer-speed-over-raft N
If expressed as absolute value in mm/s, this speed will be applied to all the
print moves of the first object layer above raft interface, regardless of their
type. If expressed as a percentage (for example: 40%) it will scale the default
speeds. (mm/s or %, default: 30)
--first-layer-temperature N
Nozzle temperature for the first layer. If you want to control temperature
manually during print, set this to zero to disable temperature control commands
in the output G-code. (°C, default: 200)
--full-fan-speed-layer N
Fan speed will be ramped up linearly from zero at layer
"disable_fan_first_layers" to maximum at layer "full_fan_speed_layer".
"full_fan_speed_layer" will be ignored if lower than "disable_fan_first_layers",
in which case the fan will be running at maximum allowed speed at layer
"disable_fan_first_layers" + 1. (default: 0)
--gcode-comments Enable this to get a commented G-code file, with each line explained by a
descriptive text. If you print from SD card, the additional weight of the file
could make your firmware slow down.
--gcode-flavor Some G/M-code commands, including temperature control and others, are not
universal. Set this option to your printer's firmware to get a compatible
output. The "No extrusion" flavor prevents PrusaSlicer from exporting any
extrusion value at all. (reprap, reprapfirmware, repetier, teacup, makerware,
marlin, marlin2, sailfish, mach3, machinekit, smoothie, no-extrusion; default:
reprap)
--gcode-label-objects
Enable this to add comments into the G-Code labeling print moves with what
object they belong to, which is useful for the Octoprint CancelObject plugin.
This settings is NOT compatible with Single Extruder Multi Material setup and
Wipe into Object / Wipe into Infill.
--gcode-resolution N
Maximum deviation of exported G-code paths from their full resolution
counterparts. Very high resolution G-code requires huge amount of RAM to slice
and preview, also a 3D printer may stutter not being able to process a high
resolution G-code in a timely manner. On the other hand, a low resolution G-code
will produce a low poly effect and because the G-code reduction is performed at
each layer independently, visible artifacts may be produced. (mm, default:
0.0125)
--gcode-substitutions ABCD
Find / replace patterns in G-code lines and substitute them. (default: )
--high-current-on-filament-swap
It may be beneficial to increase the extruder motor current during the filament
exchange sequence to allow for rapid ramming feed rates and to overcome
resistance when loading a filament with an ugly shaped tip.
--infill-acceleration N
This is the acceleration your printer will use for infill. Set zero to disable
acceleration control for infill. (mm/s², default: 0)
--infill-first This option will switch the print order of perimeters and infill, making the
latter first.
--after-layer-gcode ABCD, --layer-gcode ABCD
This custom code is inserted at every layer change, right after the Z move and
before the extruder moves to the first layer point. Note that you can use
placeholder variables for all Slic3r settings as well as [layer_num] and
[layer_z].
--max-fan-speed N This setting represents the maximum speed of your fan. (%, default: 100)
--max-layer-height N
This is the highest printable layer height for this extruder, used to cap the
variable layer height and support layer height. Maximum recommended layer height
is 75% of the extrusion width to achieve reasonable inter-layer adhesion. If set
to 0, layer height is limited to 75% of the nozzle diameter. (mm, default: 0)
--max-print-height N
Set this to the maximum height that can be reached by your extruder while
printing. (mm, default: 200)
--max-print-speed N When setting other speed settings to 0 Slic3r will autocalculate the optimal
speed in order to keep constant extruder pressure. This experimental setting is
used to set the highest print speed you want to allow. (mm/s, default: 80)
--max-volumetric-extrusion-rate-slope-negative N
This experimental setting is used to limit the speed of change in extrusion rate
for a transition from higher speed to lower speed. A value of 1.8 mm³/s²
ensures, that a change from the extrusion rate of 5.4 mm³/s (0.45 mm extrusion
width, 0.2 mm extrusion height, feedrate 60 mm/s) to 1.8 mm³/s (feedrate 20
mm/s) will take at least 2 seconds. (mm³/s², default: 0)
--max-volumetric-extrusion-rate-slope-positive N
This experimental setting is used to limit the speed of change in extrusion rate
for a transition from lower speed to higher speed. A value of 1.8 mm³/s²
ensures, that a change from the extrusion rate of 1.8 mm³/s (0.45 mm extrusion
width, 0.2 mm extrusion height, feedrate 20 mm/s) to 5.4 mm³/s (feedrate 60
mm/s) will take at least 2 seconds. (mm³/s², default: 0)
--max-volumetric-speed N
This experimental setting is used to set the maximum volumetric speed your
extruder supports. (mm³/s, default: 0)
--min-fan-speed N This setting represents the minimum PWM your fan needs to work. (%, default: 35)
--min-layer-height N
This is the lowest printable layer height for this extruder and limits the
resolution for variable layer height. Typical values are between 0.05 mm and 0.1
mm. (mm, default: 0.07)
--min-print-speed N Slic3r will not scale speed down below this speed. (mm/s, default: 10)
--min-skirt-length N
Generate no less than the number of skirt loops required to consume the
specified amount of filament on the bottom layer. For multi-extruder machines,
this minimum applies to each extruder. (mm, default: 0)
--notes ABCD You can put here your personal notes. This text will be added to the G-code
header comments.
--nozzle-diameter N This is the diameter of your extruder nozzle (for example: 0.5, 0.35 etc.) (mm,
default: 0.4)
--only-retract-when-crossing-perimeters
Disables retraction when the travel path does not exceed the upper layer's
perimeters (and thus any ooze will be probably invisible).
--ooze-prevention This option will drop the temperature of the inactive extruders to prevent
oozing. It will enable a tall skirt automatically and move extruders outside
such skirt when changing temperatures.
--output-filename-format ABCD
You can use all configuration options as variables inside this template. For
example: [layer_height], [fill_density] etc. You can also use [timestamp],
[year], [month], [day], [hour], [minute], [second], [version], [input_filename],
[input_filename_base]. (default: [input_filename_base].gcode)
--parking-pos-retraction N
Distance of the extruder tip from the position where the filament is parked when
unloaded. This should match the value in printer firmware. (mm, default: 92)
--pause-print-gcode ABCD
This G-code will be used as a code for the pause print (default: M601)
--perimeter-acceleration N
This is the acceleration your printer will use for perimeters. Set zero to
disable acceleration control for perimeters. (mm/s², default: 0)
--post-process ABCD If you want to process the output G-code through custom scripts, just list their
absolute paths here. Separate multiple scripts with a semicolon. Scripts will be
passed the absolute path to the G-code file as the first argument, and they can
access the Slic3r config settings by reading environment variables. (default: )
--preset-name ABCD
--preset-names ABCD Names of presets related to the physical printer (default: )
--printer-notes ABCD
You can put your notes regarding the printer here.
--printer-technology
Printer technology (FFF, SLA; default: FFF)
--remaining-times Emit M73 P[percent printed] R[remaining time in minutes] at 1 minute intervals
into the G-code to let the firmware show accurate remaining time. As of now only
the Prusa i3 MK3 firmware recognizes M73. Also the i3 MK3 firmware supports M73
Qxx Sxx for the silent mode.
--resolution N Minimum detail resolution, used to simplify the input file for speeding up the
slicing job and reducing memory usage. High-resolution models often carry more
detail than printers can render. Set to zero to disable any simplification and
use full resolution from input. (mm, default: 0)
--retract-before-travel N
Retraction is not triggered when travel moves are shorter than this length. (mm,
default: 2)
--retract-before-wipe
With bowden extruders, it may be wise to do some amount of quick retract before
doing the wipe movement. (%, default: 0%)
--retract-layer-change
This flag enforces a retraction whenever a Z move is done. (default: 0)
--retract-length N When retraction is triggered, filament is pulled back by the specified amount
(the length is measured on raw filament, before it enters the extruder). (mm
(zero to disable), default: 2)
--retract-length-toolchange N
When retraction is triggered before changing tool, filament is pulled back by
the specified amount (the length is measured on raw filament, before it enters
the extruder). (mm (zero to disable), default: 10)
--retract-lift N If you set this to a positive value, Z is quickly raised every time a retraction
is triggered. When using multiple extruders, only the setting for the first
extruder will be considered. (mm, default: 0)
--retract-lift-above N
If you set this to a positive value, Z lift will only take place above the
specified absolute Z. You can tune this setting for skipping lift on the first
layers. (mm, default: 0)
--retract-lift-below N
If you set this to a positive value, Z lift will only take place below the
specified absolute Z. You can tune this setting for limiting lift to the first
layers. (mm, default: 0)
--retract-restart-extra N
When the retraction is compensated after the travel move, the extruder will push
this additional amount of filament. This setting is rarely needed. (mm, default:
0)
--retract-restart-extra-toolchange N
When the retraction is compensated after changing tool, the extruder will push
this additional amount of filament. (mm, default: 0)
--retract-speed N The speed for retractions (it only applies to the extruder motor). (mm/s,
default: 40)
--silent-mode The firmware supports stealth mode
--single-extruder-multi-material
The printer multiplexes filaments into a single hot end.
--single-extruder-multi-material-priming
If enabled, all printing extruders will be primed at the front edge of the print
bed at the start of the print.
--skirt-distance N Distance between skirt and brim (when draft shield is not used) or objects. (mm,
default: 6)
--skirt-height N Height of skirt expressed in layers. (layers, default: 1)
--skirts N Number of loops for the skirt. If the Minimum Extrusion Length option is set,
the number of loops might be greater than the one configured here. Set this to
zero to disable skirt completely. (default: 1)
--slowdown-below-layer-time N
If layer print time is estimated below this number of seconds, print moves speed
will be scaled down to extend duration to this value. (approximate seconds,
default: 5)
--solid-layers N Number of solid layers to generate on top and bottom surfaces.
--solid-min-thickness N
Minimum thickness of a top / bottom shell
--spiral-vase This feature will raise Z gradually while printing a single-walled object in
order to remove any visible seam. This option requires a single perimeter, no
infill, no top solid layers and no support material. You can still set any
number of bottom solid layers as well as skirt/brim loops. It won't work when
printing more than one single object.
--standby-temperature-delta N
Temperature difference to be applied when an extruder is not active. Enables a
full-height "sacrificial" skirt on which the nozzles are periodically wiped.
(∆°C, default: -5)
--start-filament-gcode ABCD
This start procedure is inserted at the beginning, after any printer start gcode
(and after any toolchange to this filament in case of multi-material printers).
This is used to override settings for a specific filament. If PrusaSlicer
detects M104, M109, M140 or M190 in your custom codes, such commands will not be
prepended automatically so you're free to customize the order of heating
commands and other custom actions. Note that you can use placeholder variables
for all PrusaSlicer settings, so you can put a "M109 S[first_layer_temperature]"
command wherever you want. If you have multiple extruders, the gcode is
processed in extruder order. (default: "; Filament gcode\n")
--start-gcode ABCD This start procedure is inserted at the beginning, after bed has reached the
target temperature and extruder just started heating, and before extruder has
finished heating. If PrusaSlicer detects M104 or M190 in your custom codes, such
commands will not be prepended automatically so you're free to customize the
order of heating commands and other custom actions. Note that you can use
placeholder variables for all PrusaSlicer settings, so you can put a "M109
S[first_layer_temperature]" command wherever you want. (default: G28 ; home all
axes\nG1 Z5 F5000 ; lift nozzle\n)
--temperature N Nozzle temperature for layers after the first one. Set this to zero to disable
temperature control commands in the output G-code. (°C, default: 200)
--template-custom-gcode ABCD
This G-code will be used as a custom code
--thumbnails Picture sizes to be stored into a .gcode and .sl1 / .sl1s files, in the
following format: "XxY, XxY, ..." (default: )
--thumbnails-format Format of G-code thumbnails: PNG for best quality, JPG for smallest size, QOI
for low memory firmware (PNG, JPG, QOI; default: PNG)
--toolchange-gcode ABCD
This custom code is inserted before every toolchange. Placeholder variables for
all PrusaSlicer settings as well as {toolchange_z}, {previous_extruder} and
{next_extruder} can be used. When a tool-changing command which changes to the
correct extruder is included (such as T{next_extruder}), PrusaSlicer will emit
no other such command. It is therefore possible to script custom behaviour both
before and after the toolchange.
--travel-speed N Speed for travel moves (jumps between distant extrusion points). (mm/s, default:
130)
--travel-speed-z N Speed for movements along the Z axis. When set to zero, the value is ignored and
regular travel speed is used instead. (mm/s, default: 0)
--use-firmware-retraction
This experimental setting uses G10 and G11 commands to have the firmware handle
the retraction. This is only supported in recent Marlin.
--use-relative-e-distances
If your firmware requires relative E values, check this, otherwise leave it
unchecked. Most firmwares use absolute values.
--use-volumetric-e This experimental setting uses outputs the E values in cubic millimeters instead
of linear millimeters. If your firmware doesn't already know filament
diameter(s), you can put commands like 'M200 D[filament_diameter_0] T0' in your
start G-code in order to turn volumetric mode on and use the filament diameter
associated to the filament selected in Slic3r. This is only supported in recent
Marlin.
--variable-layer-height
Some printers or printer setups may have difficulties printing with a variable
layer height. Enabled by default.
--wipe This flag will move the nozzle while retracting to minimize the possible blob on
leaky extruders. (default: 0)
--wipe-tower Multi material printers may need to prime or purge extruders on tool changes.
Extrude the excess material into the wipe tower.
--wipe-tower-bridging N
Maximal distance between supports on sparse infill sections. (mm, default: 10)
--wipe-tower-brim-width N
Wipe tower brim width (mm, default: 2)
--wipe-tower-no-sparse-layers
If enabled, the wipe tower will not be printed on layers with no toolchanges. On
layers with a toolchange, extruder will travel downward to print the wipe tower.
User is responsible for ensuring there is no collision with the print.
--wipe-tower-rotation-angle N
Wipe tower rotation angle with respect to x-axis. (°, default: 0)
--wipe-tower-width N
Width of a wipe tower (mm, default: 60)
--wipe-tower-x N X coordinate of the left front corner of a wipe tower (mm, default: 180)
--wipe-tower-y N Y coordinate of the left front corner of a wipe tower (mm, default: 140)
--wiping-volumes-extruders N
This vector saves required volumes to change from/to each tool used on the wipe
tower. These values are used to simplify creation of the full purging volumes
below. (default: 70,70,70,70,70,70,70,70,70,70)
--wiping-volumes-matrix N
This matrix describes volumes (in cubic milimetres) required to purge the new
filament on the wipe tower for any given pair of tools. (default:
0,140,140,140,140,140,0,140,140,140,140,140,0,140,140,140,140,140,0,140,140,140,140,140,0)
--z-offset N This value will be added (or subtracted) from all the Z coordinates in the
output G-code. It is used to compensate for bad Z endstop position: for example,
if your endstop zero actually leaves the nozzle 0.3mm far from the print bed,
set this to -0.3 (or fix your endstop). (mm, default: 0)
Advanced:
--bridge-flow-ratio N
This factor affects the amount of plastic for bridging. You can decrease it
slightly to pull the extrudates and prevent sagging, although default settings
are usually good and you should experiment with cooling (use a fan) before
tweaking this. (default: 1)
--elefant-foot-compensation N
The first layer will be shrunk in the XY plane by the configured value to
compensate for the 1st layer squish aka an Elephant Foot effect. (mm, default:
0)
--infill-anchor N Connect an infill line to an internal perimeter with a short segment of an
additional perimeter. If expressed as percentage (example: 15%) it is calculated
over infill extrusion width. PrusaSlicer tries to connect two close infill lines
to a short perimeter segment. If no such perimeter segment shorter than
infill_anchor_max is found, the infill line is connected to a perimeter segment
at just one side and the length of the perimeter segment taken is limited to
this parameter, but no longer than anchor_length_max. Set this parameter to zero
to disable anchoring perimeters connected to a single infill line. (mm or %,
default: 600%)
--infill-anchor-max N
Connect an infill line to an internal perimeter with a short segment of an
additional perimeter. If expressed as percentage (example: 15%) it is calculated
over infill extrusion width. PrusaSlicer tries to connect two close infill lines
to a short perimeter segment. If no such perimeter segment shorter than this
parameter is found, the infill line is connected to a perimeter segment at just
one side and the length of the perimeter segment taken is limited to
infill_anchor, but no longer than this parameter. Set this parameter to zero to
disable anchoring. (mm or %, default: 50)
--infill-overlap N This setting applies an additional overlap between infill and perimeters for
better bonding. Theoretically this shouldn't be needed, but backlash might cause
gaps. If expressed as percentage (example: 15%) it is calculated over perimeter
extrusion width. (mm or %, default: 25%)
--min-bead-width N Width of the perimeter that will replace thin features (according to the Minimum
feature size) of the model. If the Minimum perimeter width is thinner than the
thickness of the feature, the perimeter will become as thick as the feature
itself. If expressed as a percentage (for example 85%), it will be computed
based on the nozzle diameter. (mm or %, default: 85%)
--min-feature-size N
Minimum thickness of thin features. Model features that are thinner than this
value will not be printed, while features thicker than the Minimum feature size
will be widened to the Minimum perimeter width. If expressed as a percentage
(for example 25%), it will be computed based on the nozzle diameter. (mm or %,
default: 25%)
--mmu-segmented-region-max-width N
Maximum width of a segmented region. Zero disables this feature. (mm (zero to
disable), default: 0)
--slice-closing-radius N
Cracks smaller than 2x gap closing radius are being filled during the triangle
mesh slicing. The gap closing operation may reduce the final print resolution,
therefore it is advisable to keep the value reasonably low. (mm, default: 0.049)
--slicing-mode Use "Even-odd" for 3DLabPrint airplane models. Use "Close holes" to close all
holes in the model. (regular, even_odd, close_holes; default: regular)
--wall-distribution-count N
The number of perimeters, counted from the center, over which the variation
needs to be spread. Lower values mean that the outer perimeters don't change in
width. (default: 1)
--wall-transition-angle N
When to create transitions between even and odd numbers of perimeters. A wedge
shape with an angle greater than this setting will not have transitions and no
perimeters will be printed in the center to fill the remaining space. Reducing
this setting reduces the number and length of these center perimeters, but may
leave gaps or overextrude. (°, default: 10)
--wall-transition-filter-deviation N
Prevent transitioning back and forth between one extra perimeter and one less.
This margin extends the range of extrusion widths which follow to [Minimum
perimeter width - margin, 2 * Minimum perimeter width + margin]. Increasing this
margin reduces the number of transitions, which reduces the number of extrusion
starts/stops and travel time. However, large extrusion width variation can lead
to under- or overextrusion problems. If expressed as a percentage (for example
25%), it will be computed based on the nozzle diameter. (mm or %, default: 25%)
--wall-transition-length N
When transitioning between different numbers of perimeters as the part becomes
thinner, a certain amount of space is allotted to split or join the perimeter
segments. If expressed as a percentage (for example 100%), it will be computed
based on the nozzle diameter. (mm or %, default: 100%)
--xy-size-compensation N
The object will be grown/shrunk in the XY plane by the configured value
(negative = inwards, positive = outwards). This might be useful for fine-tuning
hole sizes. (mm, default: 0)
Extruders:
--extruder N The extruder to use (unless more specific extruder settings are specified). This
value overrides perimeter and infill extruders, but not the support extruders.
--infill-extruder N The extruder to use when printing infill. (default: 1)
--perimeter-extruder N
The extruder to use when printing perimeters and brim. First extruder is 1.
(default: 1)
--solid-infill-extruder N
The extruder to use when printing solid infill. (default: 1)
--support-material-extruder N
The extruder to use when printing support material, raft and skirt (1+, 0 to use
the current extruder to minimize tool changes). (default: 1)
--support-material-interface-extruder N
The extruder to use when printing support material interface (1+, 0 to use the
current extruder to minimize tool changes). This affects raft too. (default: 1)
Extrusion Width:
--external-perimeter-extrusion-width N
Set this to a non-zero value to set a manual extrusion width for external
perimeters. If left zero, default extrusion width will be used if set, otherwise
1.125 x nozzle diameter will be used. If expressed as percentage (for example
200%), it will be computed over layer height. (mm or %, default: 0)
--extrusion-width N Set this to a non-zero value to allow a manual extrusion width. If left to zero,
Slic3r derives extrusion widths from the nozzle diameter (see the tooltips for
perimeter extrusion width, infill extrusion width etc). If expressed as
percentage (for example: 230%), it will be computed over layer height. (mm or %,
default: 0)
--first-layer-extrusion-width N
Set this to a non-zero value to set a manual extrusion width for first layer.
You can use this to force fatter extrudates for better adhesion. If expressed as
percentage (for example 120%) it will be computed over first layer height. If
set to zero, it will use the default extrusion width. (mm or %, default: 200%)
--infill-extrusion-width N
Set this to a non-zero value to set a manual extrusion width for infill. If left
zero, default extrusion width will be used if set, otherwise 1.125 x nozzle
diameter will be used. You may want to use fatter extrudates to speed up the
infill and make your parts stronger. If expressed as percentage (for example
90%) it will be computed over layer height. (mm or %, default: 0)
--perimeter-extrusion-width N
Set this to a non-zero value to set a manual extrusion width for perimeters. You
may want to use thinner extrudates to get more accurate surfaces. If left zero,
default extrusion width will be used if set, otherwise 1.125 x nozzle diameter
will be used. If expressed as percentage (for example 200%) it will be computed
over layer height. (mm or %, default: 0)
--solid-infill-extrusion-width N
Set this to a non-zero value to set a manual extrusion width for infill for
solid surfaces. If left zero, default extrusion width will be used if set,
otherwise 1.125 x nozzle diameter will be used. If expressed as percentage (for
example 90%) it will be computed over layer height. (mm or %, default: 0)
--support-material-extrusion-width N
Set this to a non-zero value to set a manual extrusion width for support
material. If left zero, default extrusion width will be used if set, otherwise
nozzle diameter will be used. If expressed as percentage (for example 90%) it
will be computed over layer height. (mm or %, default: 0)
--top-infill-extrusion-width N
Set this to a non-zero value to set a manual extrusion width for infill for top
surfaces. You may want to use thinner extrudates to fill all narrow regions and
get a smoother finish. If left zero, default extrusion width will be used if
set, otherwise nozzle diameter will be used. If expressed as percentage (for
example 90%) it will be computed over layer height. (mm or %, default: 0)
Fuzzy Skin:
--fuzzy-skin Fuzzy skin type. (none, external, all; default: none)
--fuzzy-skin-point-dist N
Perimeters will be split into multiple segments by inserting Fuzzy skin points.
Lowering the Fuzzy skin point distance will increase the number of randomly
offset points on the perimeter wall. (mm, default: 0.8)
--fuzzy-skin-thickness N
The maximum distance that each skin point can be offset (both ways), measured
perpendicular to the perimeter wall. (mm, default: 0.3)
Infill:
--bottom-fill-pattern, --external-fill-pattern, --solid-fill-pattern
Fill pattern for bottom infill. This only affects the bottom external visible
layer, and not its adjacent solid shells. (rectilinear, monotonic,
alignedrectilinear, concentric, hilbertcurve, archimedeanchords, octagramspiral;
default: monotonic)
--bridge-angle N Bridging angle override. If left to zero, the bridging angle will be calculated
automatically. Otherwise the provided angle will be used for all bridges. Use
180° for zero angle. (°, default: 0)
--fill-angle N Default base angle for infill orientation. Cross-hatching will be applied to
this. Bridges will be infilled using the best direction Slic3r can detect, so
this setting does not affect them. (°, default: 45)
--fill-density Density of internal infill, expressed in the range 0% - 100%. (%, default: 20%)
--fill-pattern Fill pattern for general low-density infill. (rectilinear, alignedrectilinear,
grid, triangles, stars, cubic, line, concentric, honeycomb, 3dhoneycomb, gyroid,
hilbertcurve, archimedeanchords, octagramspiral, adaptivecubic, supportcubic,
lightning; default: stars)
--infill-every-layers N
This feature allows to combine infill and speed up your print by extruding
thicker infill layers while preserving thin perimeters, thus accuracy. (layers,
default: 1)
--infill-only-where-needed
This option will limit infill to the areas actually needed for supporting
ceilings (it will act as internal support material). If enabled, slows down the
G-code generation due to the multiple checks involved.
--solid-infill-below-area N
Force solid infill for regions having a smaller area than the specified
threshold. (mm², default: 70)
--solid-infill-every-layers N
This feature allows to force a solid layer every given number of layers. Zero to
disable. You can set this to any value (for example 9999); Slic3r will
automatically choose the maximum possible number of layers to combine according
to nozzle diameter and layer height. (layers, default: 0)
--top-fill-pattern, --external-fill-pattern, --solid-fill-pattern
Fill pattern for top infill. This only affects the top visible layer, and not
its adjacent solid shells. (rectilinear, monotonic, alignedrectilinear,
concentric, hilbertcurve, archimedeanchords, octagramspiral; default: monotonic)
Ironing:
--ironing Enable ironing of the top layers with the hot print head for smooth surface
--ironing-flowrate Percent of a flow rate relative to object's normal layer height. (%, default:
15%)
--ironing-spacing N Distance between ironing lines (mm, default: 0.1)
--ironing-type Ironing Type (top, topmost, solid; default: top)
Layers and Perimeters:
--avoid-crossing-perimeters-max-detour N
The maximum detour length for avoid crossing perimeters. If the detour is longer
than this value, avoid crossing perimeters is not applied for this travel path.
Detour length could be specified either as an absolute value or as percentage
(for example 50%) of a direct travel path. (mm or % (zero to disable), default:
0)
--bottom-solid-layers N
Number of solid layers to generate on bottom surfaces. (default: 3)
--bottom-solid-min-thickness N
The number of bottom solid layers is increased above bottom_solid_layers if
necessary to satisfy minimum thickness of bottom shell. (mm, default: 0)
--ensure-vertical-shell-thickness
Add solid infill near sloping surfaces to guarantee the vertical shell thickness
(top+bottom solid layers).
--external-perimeters-first
Print contour perimeters from the outermost one to the innermost one instead of
the default inverse order.
--extra-perimeters Add more perimeters when needed for avoiding gaps in sloping walls. Slic3r keeps
adding perimeters, until more than 70% of the loop immediately above is
supported.
--first-layer-height N
When printing with very low layer heights, you might still want to print a
thicker bottom layer to improve adhesion and tolerance for non perfect build
plates. (mm, default: 0.35)
--gap-fill-enabled Enables filling of gaps between perimeters and between the inner most perimeters
and infill.
--interface-shells Force the generation of solid shells between adjacent materials/volumes. Useful
for multi-extruder prints with translucent materials or manual soluble support
material.
--layer-height N This setting controls the height (and thus the total number) of the
slices/layers. Thinner layers give better accuracy but take more time to print.
(mm, default: 0.3)
--overhangs Experimental option to adjust flow for overhangs (bridge flow will be used), to
apply bridge speed to them and enable fan.
--perimeter-generator
Classic perimeter generator produces perimeters with constant extrusion width
and for very thin areas is used gap-fill. Arachne engine produces perimeters
with variable extrusion width. This setting also affects the Concentric infill.
(classic, arachne; default: arachne)
--perimeters N This option sets the number of perimeters to generate for each layer. Note that
Slic3r may increase this number automatically when it detects sloping surfaces
which benefit from a higher number of perimeters if the Extra Perimeters option
is enabled. ((minimum), default: 3)
--seam-position Position of perimeters starting points. (random, nearest, aligned, rear;
default: aligned)
--thick-bridges If enabled, bridges are more reliable, can bridge longer distances, but may look
worse. If disabled, bridges look better but are reliable just for shorter
bridged distances.
--thin-walls Detect single-width walls (parts where two extrusions don't fit and we need to
collapse them into a single trace).
--top-solid-layers N
Number of solid layers to generate on top surfaces. (default: 3)
--top-solid-min-thickness N
The number of top solid layers is increased above top_solid_layers if necessary
to satisfy minimum thickness of top shell. This is useful to prevent pillowing
effect when printing with variable layer height. (mm, default: 0)
Machine limits:
--machine-limits-usage
How to apply the Machine Limits (emit_to_gcode, time_estimate_only, ignore;
default: time_estimate_only)
--machine-max-acceleration-e N
Maximum acceleration of the E axis (mm/s², default: 10000,5000)
--machine-max-acceleration-extruding N
Maximum acceleration when extruding (M204 P) Marlin (legacy) firmware flavor
will use this also as travel acceleration (M204 T). (mm/s², default: 1500,1250)
--machine-max-acceleration-retracting N
Maximum acceleration when retracting (M204 R) (mm/s², default: 1500,1250)
--machine-max-acceleration-travel N
Maximum acceleration for travel moves (M204 T) (mm/s², default: 1500,1250)
--machine-max-acceleration-x N
Maximum acceleration of the X axis (mm/s², default: 9000,1000)
--machine-max-acceleration-y N
Maximum acceleration of the Y axis (mm/s², default: 9000,1000)
--machine-max-acceleration-z N
Maximum acceleration of the Z axis (mm/s², default: 500,200)
--machine-max-feedrate-e N
Maximum feedrate of the E axis (mm/s, default: 120,120)
--machine-max-feedrate-x N
Maximum feedrate of the X axis (mm/s, default: 500,200)
--machine-max-feedrate-y N
Maximum feedrate of the Y axis (mm/s, default: 500,200)
--machine-max-feedrate-z N
Maximum feedrate of the Z axis (mm/s, default: 12,12)
--machine-max-jerk-e N
Maximum jerk of the E axis (mm/s, default: 2.5,2.5)
--machine-max-jerk-x N
Maximum jerk of the X axis (mm/s, default: 10,10)
--machine-max-jerk-y N
Maximum jerk of the Y axis (mm/s, default: 10,10)
--machine-max-jerk-z N
Maximum jerk of the Z axis (mm/s, default: 0.2,0.4)
--machine-min-extruding-rate N
Minimum feedrate when extruding (M205 S) (mm/s, default: 0,0)
--machine-min-travel-rate N
Minimum travel feedrate (M205 T) (mm/s, default: 0,0)
Skirt and brim:
--brim-separation N Offset of brim from the printed object. The offset is applied after the elephant
foot compensation. (mm, default: 0)
--brim-type The places where the brim will be printed around each object on the first layer.
(no_brim, outer_only, inner_only, outer_and_inner; default: outer_only)
--brim-width N The horizontal width of the brim that will be printed around each object on the
first layer. When raft is used, no brim is generated (use
raft_first_layer_expansion). (mm, default: 0)
Speed:
--bridge-speed N Speed for printing bridges. (mm/s, default: 60)
--external-perimeter-speed N
This separate setting will affect the speed of external perimeters (the visible
ones). If expressed as percentage (for example: 80%) it will be calculated on
the perimeters speed setting above. Set to zero for auto. (mm/s or %, default:
50%)
--gap-fill-speed N Speed for filling small gaps using short zigzag moves. Keep this reasonably low
to avoid too much shaking and resonance issues. Set zero to disable gaps
filling. (mm/s, default: 20)
--infill-speed N Speed for printing the internal fill. Set to zero for auto. (mm/s, default: 80)
--ironing-speed N Ironing (mm/s, default: 15)
--perimeter-speed N Speed for perimeters (contours, aka vertical shells). Set to zero for auto.
(mm/s, default: 60)
--small-perimeter-speed N
This separate setting will affect the speed of perimeters having radius <= 6.5mm
(usually holes). If expressed as percentage (for example: 80%) it will be
calculated on the perimeters speed setting above. Set to zero for auto. (mm/s or
%, default: 15)
--solid-infill-speed N
Speed for printing solid regions (top/bottom/internal horizontal shells). This
can be expressed as a percentage (for example: 80%) over the default infill
speed above. Set to zero for auto. (mm/s or %, default: 20)
--top-solid-infill-speed N
Speed for printing top solid layers (it only applies to the uppermost external
layers and not to their internal solid layers). You may want to slow down this
to get a nicer surface finish. This can be expressed as a percentage (for
example: 80%) over the solid infill speed above. Set to zero for auto. (mm/s or
%, default: 15)
Support material:
--dont-support-bridges
Experimental option for preventing support material from being generated under
bridged areas.
--raft-contact-distance N
The vertical distance between object and raft. Ignored for soluble interface.
(mm, default: 0.1)
--raft-expansion N Expansion of the raft in XY plane for better stability. (mm, default: 1.5)
--raft-first-layer-density
Density of the first raft or support layer. (%, default: 90%)
--raft-first-layer-expansion N
Expansion of the first raft or support layer to improve adhesion to print bed.
(mm, default: 3)
--raft-layers N The object will be raised by this number of layers, and support material will be
generated under it. (layers, default: 0)
--support-material Enable support material generation.
--support-material-angle N
Use this setting to rotate the support material pattern on the horizontal plane.
(°, default: 0)
--support-material-auto
If checked, supports will be generated automatically based on the overhang
threshold value. If unchecked, supports will be generated inside the "Support
Enforcer" volumes only.
--support-material-bottom-contact-distance N
The vertical distance between the object top surface and the support material
interface. If set to zero, support_material_contact_distance will be used for
both top and bottom contact Z distances. (mm, default: 0)
--support-material-bottom-interface-layers N
Number of interface layers to insert between the object(s) and support material.
Set to -1 to use support_material_interface_layers (layers, default: -1)
--support-material-buildplate-only
Only create support if it lies on a build plate. Don't create support on a
print.
--support-material-closing-radius N
For snug supports, the support regions will be merged using morphological
closing operation. Gaps smaller than the closing radius will be filled in. (mm,
default: 2)
--support-material-contact-distance N
The vertical distance between object and support material interface. Setting
this to 0 will also prevent Slic3r from using bridge flow and speed for the
first object layer. (mm, default: 0.2)
--support-material-enforce-layers N
Generate support material for the specified number of layers counting from
bottom, regardless of whether normal support material is enabled or not and
regardless of any angle threshold. This is useful for getting more adhesion of
objects having a very thin or poor footprint on the build plate. (layers,
default: 0)
--support-material-interface-contact-loops
Cover the top contact layer of the supports with loops. Disabled by default.
--support-material-interface-layers N
Number of interface layers to insert between the object(s) and support material.
(layers, default: 3)
--support-material-interface-pattern
Pattern used to generate support material interface. Default pattern for
non-soluble support interface is Rectilinear, while default pattern for soluble
support interface is Concentric. (auto, rectilinear, concentric; default:
rectilinear)
--support-material-interface-spacing N
Spacing between interface lines. Set zero to get a solid interface. (mm,
default: 0)
--support-material-interface-speed N
Speed for printing support material interface layers. If expressed as percentage
(for example 50%) it will be calculated over support material speed. (mm/s or %,
default: 100%)
--support-material-pattern
Pattern used to generate support material. (rectilinear, rectilinear-grid,
honeycomb; default: rectilinear)
--support-material-spacing N
--support-material-speed N
--support-material-style
--support-material-synchronize-layers
--support-material-threshold N
--support-material-with-sheath
--support-material-xy-spacing N
--wipe-into-infill
--wipe-into-objects

21
tmp_get_ini_from_json.py
View File

@@ -1,21 +0,0 @@
import json
import os
if __name__ == "__main__":
all_files = os.sys.argv[1:]
print(all_files)
keys = {}
for file in all_files:
js = json.load(open(file))
for k, v in js.items():
if k in ['filament_id','setting_id',"type","name","from","instantiation","inherits","compatible_printers","filename_format"]:
continue
if type(v) == list:
v = v[0]
keys[k] = v
print(json.dumps(keys))
with open("0.08mm_Extra_Fine.ini", "w") as f:
for k, v in keys.items():
v_str = v.replace('\n', '\\n')
f.write(f"{k} = {v_str}\n")

417
valid_keys.txt
View File

@@ -1,417 +0,0 @@
load
material_profile
print_profile
printer_profile
export_3mf
export_gcode
gcode
export_obj
export_sla
sla
export_stl
gcodeviewer
help
help_fff
help_sla
info
query_print_filament_profiles
query_printer_models
save
slice
align_xy
center
cut
dont_arrange
duplicate
duplicate_grid
ensure_on_bed
no_ensure_on_bed
merge
rotate
rotate_x
rotate_y
scale
scale_to_fit
split
config_compatibility
datadir
delete_after_load
ignore_nonexistent_config
load
loglevel
opengl_aa
output
single_instance
threads
fill_pattern
load
arc_fitting
autoemit_temperature_commands
avoid_crossing_curled_overhangs
avoid_crossing_perimeters
bed_custom_model
bed_custom_texture
bed_shape
bed_temperature
before_layer_gcode
between_objects_gcode
binary_gcode
bridge_acceleration
bridge_fan_speed
chamber_minimal_temperature
chamber_temperature
color_change_gcode
colorprint_heights
complete_objects
cooling
cooling_perimeter_transition_distance
cooling_slowdown_logic
cooling_tube_length
cooling_tube_retraction
custom_parameters_filament
custom_parameters_print
custom_parameters_printer
default_acceleration
deretract_speed
disable_fan_first_layers
draft_shield
duplicate_distance
enable_dynamic_fan_speeds
end_filament_gcode
end_gcode
external_perimeter_acceleration
extra_loading_move
extruder_clearance_height
extruder_clearance_radius
extruder_colour
extruder_offset
extrusion_axis
extrusion_multiplier
fan_always_on
fan_below_layer_time
filament_abrasive
filament_colour
filament_cooling_final_speed
filament_cooling_initial_speed
filament_cooling_moves
filament_cost
filament_density
filament_deretract_speed
filament_diameter
filament_infill_max_crossing_speed
filament_infill_max_speed
filament_load_time
filament_loading_speed
filament_loading_speed_start
filament_max_volumetric_speed
filament_minimal_purge_on_wipe_tower
filament_multitool_ramming
filament_multitool_ramming_flow
filament_multitool_ramming_volume
filament_notes
filament_purge_multiplier
filament_ramming_parameters
filament_retract_before_travel
filament_retract_before_wipe
filament_retract_layer_change
filament_retract_length
filament_retract_length_toolchange
filament_retract_lift
filament_retract_lift_above
filament_retract_lift_below
filament_retract_restart_extra
filament_retract_restart_extra_toolchange
filament_retract_speed
filament_seam_gap_distance
filament_shrinkage_compensation_xy
filament_shrinkage_compensation_z
filament_soluble
filament_spool_weight
filament_stamping_distance
filament_stamping_loading_speed
filament_toolchange_delay
filament_travel_lift_before_obstacle
filament_travel_max_lift
filament_travel_ramping_lift
filament_travel_slope
filament_type
filament_unload_time
filament_unloading_speed
filament_unloading_speed_start
filament_wipe
first_layer_acceleration
first_layer_acceleration_over_raft
first_layer_bed_temperature
first_layer_infill_speed
first_layer_speed
first_layer_speed_over_raft
first_layer_temperature
full_fan_speed_layer
gcode_comments
gcode_flavor
gcode_label_objects
gcode_resolution
gcode_substitutions
high_current_on_filament_swap
infill_acceleration
infill_first
after_layer_gcode
layer_gcode
max_fan_speed
max_layer_height
max_print_height
max_print_speed
max_volumetric_extrusion_rate_slope_negative
max_volumetric_extrusion_rate_slope_positive
max_volumetric_speed
min_fan_speed
min_layer_height
min_print_speed
min_skirt_length
multimaterial_purging
notes
nozzle_diameter
nozzle_high_flow
only_retract_when_crossing_perimeters
ooze_prevention
output_filename_format
overhang_fan_speed_0
overhang_fan_speed_1
overhang_fan_speed_2
overhang_fan_speed_3
parking_pos_retraction
pause_print_gcode
perimeter_acceleration
post_process
prefer_clockwise_movements
preset_name
preset_names
printer_model
printer_notes
printer_technology
printer_variant
remaining_times
resolution
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
seam_gap_distance
silent_mode
single_extruder_multi_material
single_extruder_multi_material_priming
skirt_distance
skirt_height
skirts
slowdown_below_layer_time
solid_infill_acceleration
solid_layers
solid_min_thickness
spiral_vase
staggered_inner_seams
standby_temperature_delta
start_filament_gcode
start_gcode
temperature
template_custom_gcode
thumbnails
thumbnails_format
toolchange_gcode
top_solid_infill_acceleration
travel_acceleration
travel_lift_before_obstacle
travel_max_lift
travel_ramping_lift
travel_short_distance_acceleration
travel_slope
travel_speed
travel_speed_z
use_firmware_retraction
use_relative_e_distances
use_volumetric_e
variable_layer_height
wipe
wipe_tower
wipe_tower_acceleration
wipe_tower_bridging
wipe_tower_brim_width
wipe_tower_cone_angle
wipe_tower_extra_flow
wipe_tower_extra_spacing
wipe_tower_no_sparse_layers
wipe_tower_width
wiping_volumes_matrix
wiping_volumes_use_custom_matrix
z_offset
bridge_flow_ratio
elefant_foot_compensation
infill_anchor
infill_anchor_max
infill_overlap
interlocking_beam
interlocking_beam_layer_count
interlocking_beam_width
interlocking_boundary_avoidance
interlocking_depth
interlocking_orientation
min_bead_width
min_feature_size
mmu_segmented_region_interlocking_depth
mmu_segmented_region_max_width
slice_closing_radius
slicing_mode
wall_distribution_count
wall_transition_angle
wall_transition_filter_deviation
wall_transition_length
xy_size_compensation
bed_temperature_extruder
extruder
infill_extruder
perimeter_extruder
solid_infill_extruder
support_material_extruder
support_material_interface_extruder
wipe_tower_extruder
automatic_extrusion_widths
external_perimeter_extrusion_width
extrusion_width
first_layer_extrusion_width
infill_extrusion_width
perimeter_extrusion_width
solid_infill_extrusion_width
support_material_extrusion_width
top_infill_extrusion_width
fuzzy_skin
fuzzy_skin_point_dist
fuzzy_skin_thickness
automatic_infill_combination
automatic_infill_combination_max_layer_height
bottom_fill_pattern
external_fill_pattern
solid_fill_pattern
bridge_angle
fill_angle
fill_density
fill_pattern
infill_every_layers
solid_infill_below_area
solid_infill_every_layers
top_fill_pattern
external_fill_pattern
solid_fill_pattern
ironing
ironing_flowrate
ironing_spacing
ironing_type
avoid_crossing_perimeters_max_detour
bottom_solid_layers
bottom_solid_min_thickness
ensure_vertical_shell_thickness
external_perimeters_first
extra_perimeters
extra_perimeters_on_overhangs
first_layer_height
gap_fill_enabled
interface_shells
layer_height
only_one_perimeter_first_layer
overhangs
perimeter_generator
perimeters
scarf_seam_entire_loop
scarf_seam_length
scarf_seam_max_segment_length
scarf_seam_on_inner_perimeters
scarf_seam_only_on_smooth
scarf_seam_placement
scarf_seam_start_height
seam_position
thick_bridges
thin_walls
top_one_perimeter_type
top_solid_layers
top_solid_min_thickness
machine_limits_usage
machine_max_acceleration_e
machine_max_acceleration_extruding
machine_max_acceleration_retracting
machine_max_acceleration_travel
machine_max_acceleration_x
machine_max_acceleration_y
machine_max_acceleration_z
machine_max_feedrate_e
machine_max_feedrate_x
machine_max_feedrate_y
machine_max_feedrate_z
machine_max_jerk_e
machine_max_jerk_x
machine_max_jerk_y
machine_max_jerk_z
machine_max_junction_deviation
machine_min_extruding_rate
machine_min_travel_rate
brim_separation
brim_type
brim_width
bridge_speed
enable_dynamic_overhang_speeds
external_perimeter_speed
gap_fill_speed
infill_speed
ironing_speed
over_bridge_speed
overhang_speed_0
overhang_speed_1
overhang_speed_2
overhang_speed_3
perimeter_speed
small_perimeter_speed
solid_infill_speed
top_solid_infill_speed
dont_support_bridges
raft_contact_distance
raft_expansion
raft_first_layer_density
raft_first_layer_expansion
raft_layers
support_material
support_material_angle
support_material_auto
support_material_bottom_contact_distance
support_material_bottom_interface_layers
support_material_buildplate_only
support_material_closing_radius
support_material_contact_distance
support_material_enforce_layers
support_material_interface_contact_loops
support_material_interface_layers
support_material_interface_pattern
support_material_interface_spacing
support_material_interface_speed
support_material_pattern
support_material_spacing
support_material_speed
support_material_style
support_material_synchronize_layers
support_material_threshold
support_material_with_sheath
support_material_xy_spacing
support_tree_angle
support_tree_angle_slow
support_tree_branch_diameter
support_tree_branch_diameter_angle
support_tree_branch_diameter_double_wall
support_tree_branch_distance
support_tree_tip_diameter
support_tree_top_rate
wipe_into_infill
wipe_into_objects
idle_temperature