mirror of
https://github.com/OrcaSlicer/OrcaSlicer.git
synced 2026-05-16 18:12:10 +00:00
16727644bb
Reduce the size of current and new JSONs by standardising them with 1 tab indentation instead of 4 spaces. This effectively reduces the size by almost 20 MB. | Current | New | |---|---| | 85.2 Mib | 67 Mib | Used [JQ](https://jqlang.org/) `--tab` to automatically format every current JSON. > [!NOTE] > Some profiles had the arrays on the same line, but those created by Orca were in the standard format (each object below the previous one). In some cases, this increases the number of tabs due to the new lines, but the increase is negligible, and this way both the base profiles and those created by Orca maintain the same style.
60 lines
10 KiB
JSON
60 lines
10 KiB
JSON
{
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"type": "machine",
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"name": "fdm_a400",
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"inherits": "fdm_linear2_dual",
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"from": "system",
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"instantiation": "false",
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"extruder_clearance_height_to_rod": "32",
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"extruder_clearance_height_to_lid": "400",
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"machine_max_acceleration_x": [
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"5000"
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],
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"machine_max_acceleration_y": [
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"5000"
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],
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"machine_max_acceleration_z": [
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"200"
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],
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"machine_max_acceleration_travel": [
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"5000"
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],
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"machine_max_acceleration_extruding": [
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"5000"
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],
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"machine_max_acceleration_retracting": [
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"2000"
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],
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"machine_max_speed_x": [
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"300"
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],
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"machine_max_speed_y": [
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"300"
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],
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"machine_max_jerk_x": [
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"10"
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],
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"machine_max_jerk_y": [
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"10"
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],
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"machine_max_jerk_z": [
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"3"
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],
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"thumbnails": [
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"600x600"
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],
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"bed_model": "Snapmaker Artisan_bed.stl",
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"bed_texture": "Snapmaker Artisan_texture.svg",
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"printable_height": "400",
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"printer_notes": "PRINTER_MODEL_SNAPMAKER_ARTISAN\nPRINTER_MODEL_SNAPMAKER_A400_DUAL\n",
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"printable_area": [
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"0x0",
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"400x0",
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"400x400",
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"0x400"
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],
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"machine_start_gcode": "; Model: Snapmaker Artisan ({nozzle_diameter[0]}/{nozzle_diameter[1]})\n; Update: 20240922\n; Maintained by https://github.com/macdylan/3dp-configs\n; Printer : [printer_preset]\n; Profile : [print_preset]\n; Plate : [plate_name]\n; --- initial_extruder: [initial_extruder]\n; --- has_wipe_tower: [has_wipe_tower]\n; --- total_toolchanges: [total_toolchanges]\n; --- T0: {is_extruder_used[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - 1, 0))]}\n; --- T1: {is_extruder_used[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - 0, 0))]}\n\nT[initial_extruder]\n\nM205 V[machine_max_jerk_x] ;Junction Deviation (mm)\n\nM140 S{first_layer_bed_temperature[initial_extruder]}\n\n; you can clean the nozzle\n{if is_extruder_used[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))]}\n M104 T{(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))} S165\n {endif}\n{if is_extruder_used[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))]}\n M104 T{(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))} S165\n {endif}\nM204 S100\nG28\nG0 Z266 F960.0\nG0 Y200.0 F6840.0\nG0 X200.0\n\n{if first_layer_print_min[0] >= 70 && first_layer_print_max[0] <= 330 && first_layer_print_min[1] >= 70 && first_layer_print_max[1] <= 330}\nM190 P0 R{first_layer_bed_temperature[initial_extruder]} ;only inner part of the bed\n{else}\nM190 R{first_layer_bed_temperature[initial_extruder]}\n{endif}\n\nG28\n{if 0==1} ; boundary check(for dual/quick swap kit), not recommanded if there are any clamps \n G0 X0\n G0 Z0.2 F960.0\n G0 Y0 F6840.0\n G0 X400\n G0 Y400\n G0 X0\n G0 Y0\n{endif}\n\nM83\n{if 1==1 && max(hot_plate_temp_initial_layer[initial_extruder], hot_plate_temp[initial_extruder]) >= 90}\nG0 Z0.06\nG92 Z0 ;reset z\n{endif}\n\n{if is_extruder_used[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))]}\n; preheat 0\nM104 T{(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))} S{max(250, min(290, nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))] + 15))}\n {endif}\n{if is_extruder_used[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))]}\n; preheat 1\nM104 T{(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))} S{max(250, min(290, nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))] + 15))}\n {endif}\n\n {if 1==1}\n{if is_extruder_used[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))] and (initial_extruder % 2) != 0}\n; flush nozzle 0\nT{(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))}\nM104 S{max(250, min(290, nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))] + 15))}; common flush temp\nG0 Z1.6 F960.0\nG0 X{( 0 % 2 == 0 ? 185.0 : 215.0 )} F6840.0\nG0 Y0 F6840.0\n\nM109 S{max(250, min(290, nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))] + 15))} C2 W1\nG1 E20 F80.0\nG92 E0\n\nM106 S{min(255, (fan_max_speed[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))] + 10) * 2.55)}\n\nM104 S{nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))] + 5}\n\nG1 E12.0 F200\nG92 E0\nG1 E8.0 Z4.6 F200\nG92 E0\n\nG0 Z5.6 F200\nM107\n\nG0 X{( 0 % 2 == 0 ? 140.0 : 260.0 )} F6840.0\nG0 Z0.3 F960.0\nM109 S{nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))]} C3 W1\nG1 E3 F200\nG92 E0\nG1 X{( 0 % 2 == 0 ? 0 : 400 )} E8.73079 F6840.0\nG92 E0\n\nG1 E-{retract_length_toolchange[0]} F200\nG92 E0\nG0 Y20 F6840.0\n\nM104 S{temperature_vitrification[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))]}\n {endif}\n\n{if is_extruder_used[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))] and (initial_extruder % 2) != 1}\n; flush nozzle 1\nT{(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))}\nM104 S{max(250, min(290, nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))] + 15))}; common flush temp\nG0 Z1.6 F960.0\nG0 X{( 1 % 2 == 0 ? 185.0 : 215.0 )} F6840.0\nG0 Y0 F6840.0\n\nM109 S{max(250, min(290, nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))] + 15))} C2 W1\nG1 E20 F80.0\nG92 E0\n\nM106 S{min(255, (fan_max_speed[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))] + 10) * 2.55)}\n\nM104 S{nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))] + 5}\n\nG1 E12.0 F200\nG92 E0\nG1 E8.0 Z4.6 F200\nG92 E0\n\nG0 Z5.6 F200\nM107\n\nG0 X{( 1 % 2 == 0 ? 140.0 : 260.0 )} F6840.0\nG0 Z0.3 F960.0\nM109 S{nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))]} C3 W1\nG1 E3 F200\nG92 E0\nG1 X{( 1 % 2 == 0 ? 0 : 400 )} E8.73079 F6840.0\nG92 E0\n\nG1 E-{retract_length_toolchange[1]} F200\nG92 E0\nG0 Y20 F6840.0\n\nM104 S{temperature_vitrification[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))]}\n {endif}\n\n {endif}\n; flush initial nozzle\nT[initial_extruder]\nM104 S{max(250, min(290, nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + initial_extruder, 63) : max(initial_extruder - (1-initial_extruder), 0))] + 15))}; common flush temp\nG0 Z1.6 F960.0\nG0 X{( initial_extruder % 2 == 0 ? 185.0 : 215.0 )} F6840.0\nG0 Y0 F6840.0\n\nM109 S{max(250, min(290, nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + initial_extruder, 63) : max(initial_extruder - (1-initial_extruder), 0))] + 15))} C2 W1\nG1 E20 F80.0\nG92 E0\n\nM106 S{min(255, (fan_max_speed[(initial_extruder % 2 == 0 ? min(initial_extruder + initial_extruder, 63) : max(initial_extruder - (1-initial_extruder), 0))] + 10) * 2.55)}\n\nM104 S{nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + initial_extruder, 63) : max(initial_extruder - (1-initial_extruder), 0))] + 5}\n\nG1 E12.0 F200\nG92 E0\nG1 E8.0 Z4.6 F200\nG92 E0\n\nG0 Z5.6 F200\nM107\n\nG0 X{( initial_extruder % 2 == 0 ? 140.0 : 260.0 )} F6840.0\nG0 Z0.3 F960.0\nM109 S{nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + initial_extruder, 63) : max(initial_extruder - (1-initial_extruder), 0))]} C3 W1\nG1 E3 F200\nG92 E0\nG1 X{( initial_extruder % 2 == 0 ? 0 : 400 )} E8.73079 F6840.0\nG92 E0\n\nG1 E-{retraction_length[initial_extruder]} F200\nG92 E0\nG0 Y20 F6840.0\n\n; ready [plate_name]",
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"machine_end_gcode": "G92 E0\n\nG0 Z{max_layer_z + 2.0} F600\n; retract the filament to make it easier to replace\nG0 E-10 F200\nG28\n\n{if is_extruder_used[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))]}\nM104 T{(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))} S0\n {endif}\n{if is_extruder_used[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))]}\nM104 T{(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))} S0\n {endif}\nM140 S0\nM107\nM220 S100\nM84\n\n;\n; DON'T REMOVE these lines if you're using the smfix (https://github.com/macdylan/SMFix)\n; min_x = [first_layer_print_min_0]\n; min_y = [first_layer_print_min_1]\n; max_x = [first_layer_print_max_0]\n; max_y = [first_layer_print_max_1]\n; max_z = [max_layer_z]\n; total_layer_number = [layer_num]\n;",
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"change_filament_gcode": ";***** Update: 20240823\n{if current_extruder != next_extruder}\n; Change T[current_extruder] -> T[next_extruder] (layer [layer_num]\n; layer\nT{next_extruder}\n\n{if layer_num == 1 &&\n ((filament_type[current_extruder] == \"PLA\" || filament_type[current_extruder] == \"TPU\")\n || (filament_type[next_extruder] == \"PLA\" || filament_type[next_extruder] == \"TPU\"))\n}\n ; set bed temp: {filament_type[current_extruder]}({bed_temperature[current_extruder]}) -> {filament_type[next_extruder]}({bed_temperature[next_extruder]})\n M140 S{min(bed_temperature[current_extruder], bed_temperature[next_extruder])}\n{endif}\n\nM109 T[next_extruder] S{if layer_num < 1}[nozzle_temperature_initial_layer]{else}[nozzle_temperature]{endif} C3 W1 ;wait T[next_extruder]\n{if layer_num == 1}\n G1 E{retraction_length[next_extruder]} F200;deretract\n{endif}\n\n{if layer_z > first_layer_height && layer_num >= close_fan_the_first_x_layers[next_extruder]}\n; M106 P[next_extruder] S{fan_min_speed[next_extruder] * 255.0 / 100.0} ;restore fan speed for T[next_extruder]\n{endif}\n; End Toolchange\n{endif}",
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"before_layer_change_gcode": "; layer_num: [layer_num]\nG92 E0"
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}
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