1 #include "PrintConfig.hpp"
2 #include "I18N.hpp"
3
4 #include <set>
5 #include <boost/algorithm/string/replace.hpp>
6 #include <boost/algorithm/string/case_conv.hpp>
7 #include <boost/format.hpp>
8 #include <boost/lexical_cast.hpp>
9 #include <boost/thread.hpp>
10
11 #include <float.h>
12
13 namespace Slic3r {
14
15 //! macro used to mark string used at localization,
16 //! return same string
17 #define L(s) (s)
18 #define _(s) Slic3r::I18N::translate(s)
19
assign_printer_technology_to_unknown(t_optiondef_map & options,PrinterTechnology printer_technology)20 static void assign_printer_technology_to_unknown(t_optiondef_map &options, PrinterTechnology printer_technology)
21 {
22 for (std::pair<const t_config_option_key, ConfigOptionDef> &kvp : options)
23 if (kvp.second.printer_technology == ptUnknown)
24 kvp.second.printer_technology = printer_technology;
25 }
26
PrintConfigDef()27 PrintConfigDef::PrintConfigDef()
28 {
29 this->init_common_params();
30 assign_printer_technology_to_unknown(this->options, ptAny);
31 this->init_fff_params();
32 this->init_extruder_option_keys();
33 assign_printer_technology_to_unknown(this->options, ptFFF);
34 this->init_sla_params();
35 assign_printer_technology_to_unknown(this->options, ptSLA);
36 }
37
init_common_params()38 void PrintConfigDef::init_common_params()
39 {
40 ConfigOptionDef* def;
41
42 def = this->add("printer_technology", coEnum);
43 def->label = L("Printer technology");
44 def->tooltip = L("Printer technology");
45 def->enum_keys_map = &ConfigOptionEnum<PrinterTechnology>::get_enum_values();
46 def->enum_values.push_back("FFF");
47 def->enum_values.push_back("SLA");
48 def->set_default_value(new ConfigOptionEnum<PrinterTechnology>(ptFFF));
49
50 def = this->add("bed_shape", coPoints);
51 def->label = L("Bed shape");
52 def->mode = comAdvanced;
53 def->set_default_value(new ConfigOptionPoints{ Vec2d(0, 0), Vec2d(200, 0), Vec2d(200, 200), Vec2d(0, 200) });
54
55 def = this->add("bed_custom_texture", coString);
56 def->label = L("Bed custom texture");
57 def->mode = comAdvanced;
58 def->set_default_value(new ConfigOptionString(""));
59
60 def = this->add("bed_custom_model", coString);
61 def->label = L("Bed custom model");
62 def->mode = comAdvanced;
63 def->set_default_value(new ConfigOptionString(""));
64
65 def = this->add("thumbnails", coPoints);
66 def->label = L("G-code thumbnails");
67 def->tooltip = L("Picture sizes to be stored into a .gcode and .sl1 / .sl1s files, in the following format: \"XxY, XxY, ...\"");
68 def->mode = comExpert;
69 def->gui_type = "one_string";
70 def->set_default_value(new ConfigOptionPoints());
71
72 def = this->add("layer_height", coFloat);
73 def->label = L("Layer height");
74 def->category = L("Layers and Perimeters");
75 def->tooltip = L("This setting controls the height (and thus the total number) of the slices/layers. "
76 "Thinner layers give better accuracy but take more time to print.");
77 def->sidetext = L("mm");
78 def->min = 0;
79 def->set_default_value(new ConfigOptionFloat(0.3));
80
81 def = this->add("max_print_height", coFloat);
82 def->label = L("Max print height");
83 def->tooltip = L("Set this to the maximum height that can be reached by your extruder while printing.");
84 def->sidetext = L("mm");
85 def->min = 0;
86 def->max = 1200;
87 def->mode = comAdvanced;
88 def->set_default_value(new ConfigOptionFloat(200.0));
89
90 def = this->add("slice_closing_radius", coFloat);
91 def->label = L("Slice gap closing radius");
92 def->category = L("Advanced");
93 def->tooltip = L("Cracks smaller than 2x gap closing radius are being filled during the triangle mesh slicing. "
94 "The gap closing operation may reduce the final print resolution, therefore it is advisable to keep the value reasonably low.");
95 def->sidetext = L("mm");
96 def->min = 0;
97 def->mode = comAdvanced;
98 def->set_default_value(new ConfigOptionFloat(0.049));
99
100 def = this->add("print_host", coString);
101 def->label = L("Hostname, IP or URL");
102 def->tooltip = L("Slic3r can upload G-code files to a printer host. This field should contain "
103 "the hostname, IP address or URL of the printer host instance. "
104 "Print host behind HAProxy with basic auth enabled can be accessed by putting the user name and password into the URL "
105 "in the following format: https://username:password@your-octopi-address/");
106 def->mode = comAdvanced;
107 def->set_default_value(new ConfigOptionString(""));
108
109 def = this->add("printhost_apikey", coString);
110 def->label = L("API Key / Password");
111 def->tooltip = L("Slic3r can upload G-code files to a printer host. This field should contain "
112 "the API Key or the password required for authentication.");
113 def->mode = comAdvanced;
114 def->set_default_value(new ConfigOptionString(""));
115
116 def = this->add("printhost_port", coString);
117 def->label = L("Printer");
118 def->tooltip = L("Name of the printer");
119 def->gui_type = "select_open";
120 def->mode = comAdvanced;
121 def->set_default_value(new ConfigOptionString(""));
122
123 def = this->add("printhost_cafile", coString);
124 def->label = L("HTTPS CA File");
125 def->tooltip = L("Custom CA certificate file can be specified for HTTPS OctoPrint connections, in crt/pem format. "
126 "If left blank, the default OS CA certificate repository is used.");
127 def->mode = comAdvanced;
128 def->set_default_value(new ConfigOptionString(""));
129
130 def = this->add("elefant_foot_compensation", coFloat);
131 def->label = L("Elephant foot compensation");
132 def->category = L("Advanced");
133 def->tooltip = L("The first layer will be shrunk in the XY plane by the configured value "
134 "to compensate for the 1st layer squish aka an Elephant Foot effect.");
135 def->sidetext = L("mm");
136 def->min = 0;
137 def->mode = comAdvanced;
138 def->set_default_value(new ConfigOptionFloat(0.2));
139
140 // Options used by physical printers
141
142 def = this->add("printhost_user", coString);
143 def->label = L("User");
144 // def->tooltip = L("");
145 def->mode = comAdvanced;
146 def->set_default_value(new ConfigOptionString(""));
147
148 def = this->add("printhost_password", coString);
149 def->label = L("Password");
150 // def->tooltip = L("");
151 def->mode = comAdvanced;
152 def->set_default_value(new ConfigOptionString(""));
153
154 def = this->add("preset_name", coString);
155 def->label = L("Printer preset name");
156 def->tooltip = L("Related printer preset name");
157 def->mode = comAdvanced;
158 def->set_default_value(new ConfigOptionString(""));
159
160 def = this->add("printhost_authorization_type", coEnum);
161 def->label = L("Authorization Type");
162 // def->tooltip = L("");
163 def->enum_keys_map = &ConfigOptionEnum<AuthorizationType>::get_enum_values();
164 def->enum_values.push_back("key");
165 def->enum_values.push_back("user");
166 def->enum_labels.push_back(L("API key"));
167 def->enum_labels.push_back(L("HTTP digest"));
168 def->mode = comAdvanced;
169 def->set_default_value(new ConfigOptionEnum<AuthorizationType>(atKeyPassword));
170 }
171
init_fff_params()172 void PrintConfigDef::init_fff_params()
173 {
174 ConfigOptionDef* def;
175
176 // Maximum extruder temperature, bumped to 1500 to support printing of glass.
177 const int max_temp = 1500;
178
179 def = this->add("avoid_crossing_perimeters", coBool);
180 def->label = L("Avoid crossing perimeters");
181 def->tooltip = L("Optimize travel moves in order to minimize the crossing of perimeters. "
182 "This is mostly useful with Bowden extruders which suffer from oozing. "
183 "This feature slows down both the print and the G-code generation.");
184 def->mode = comExpert;
185 def->set_default_value(new ConfigOptionBool(false));
186
187 def = this->add("avoid_crossing_perimeters_max_detour", coFloatOrPercent);
188 def->label = L("Avoid crossing perimeters - Max detour length");
189 def->category = L("Layers and Perimeters");
190 def->tooltip = L("The maximum detour length for avoid crossing perimeters. "
191 "If the detour is longer than this value, avoid crossing perimeters is not applied for this travel path. "
192 "Detour length could be specified either as an absolute value or as percentage (for example 50%) of a direct travel path.");
193 def->sidetext = L("mm or % (zero to disable)");
194 def->min = 0;
195 def->mode = comExpert;
196 def->set_default_value(new ConfigOptionFloatOrPercent(0., false));
197
198 def = this->add("bed_temperature", coInts);
199 def->label = L("Other layers");
200 def->tooltip = L("Bed temperature for layers after the first one. "
201 "Set this to zero to disable bed temperature control commands in the output.");
202 def->sidetext = L("°C");
203 def->full_label = L("Bed temperature");
204 def->min = 0;
205 def->max = 300;
206 def->set_default_value(new ConfigOptionInts { 0 });
207
208 def = this->add("before_layer_gcode", coString);
209 def->label = L("Before layer change G-code");
210 def->tooltip = L("This custom code is inserted at every layer change, right before the Z move. "
211 "Note that you can use placeholder variables for all Slic3r settings as well "
212 "as [layer_num] and [layer_z].");
213 def->multiline = true;
214 def->full_width = true;
215 def->height = 5;
216 def->mode = comExpert;
217 def->set_default_value(new ConfigOptionString(""));
218
219 def = this->add("between_objects_gcode", coString);
220 def->label = L("Between objects G-code");
221 def->tooltip = L("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.");
222 def->multiline = true;
223 def->full_width = true;
224 def->height = 12;
225 def->mode = comExpert;
226 def->set_default_value(new ConfigOptionString(""));
227
228 def = this->add("bottom_solid_layers", coInt);
229 //TRN To be shown in Print Settings "Bottom solid layers"
230 def->label = L("Bottom");
231 def->category = L("Layers and Perimeters");
232 def->tooltip = L("Number of solid layers to generate on bottom surfaces.");
233 def->full_label = L("Bottom solid layers");
234 def->min = 0;
235 def->set_default_value(new ConfigOptionInt(3));
236
237 def = this->add("bottom_solid_min_thickness", coFloat);
238 //TRN To be shown in Print Settings "Top solid layers"
239 def->label = L("Bottom");
240 def->category = L("Layers and Perimeters");
241 def->tooltip = L("The number of bottom solid layers is increased above bottom_solid_layers if necessary to satisfy "
242 "minimum thickness of bottom shell.");
243 def->full_label = L("Minimum bottom shell thickness");
244 def->sidetext = L("mm");
245 def->min = 0;
246 def->set_default_value(new ConfigOptionFloat(0.));
247
248 def = this->add("bridge_acceleration", coFloat);
249 def->label = L("Bridge");
250 def->tooltip = L("This is the acceleration your printer will use for bridges. "
251 "Set zero to disable acceleration control for bridges.");
252 def->sidetext = L("mm/s²");
253 def->min = 0;
254 def->mode = comExpert;
255 def->set_default_value(new ConfigOptionFloat(0));
256
257 def = this->add("bridge_angle", coFloat);
258 def->label = L("Bridging angle");
259 def->category = L("Infill");
260 def->tooltip = L("Bridging angle override. If left to zero, the bridging angle will be calculated "
261 "automatically. Otherwise the provided angle will be used for all bridges. "
262 "Use 180° for zero angle.");
263 def->sidetext = L("°");
264 def->min = 0;
265 def->mode = comAdvanced;
266 def->set_default_value(new ConfigOptionFloat(0.));
267
268 def = this->add("bridge_fan_speed", coInts);
269 def->label = L("Bridges fan speed");
270 def->tooltip = L("This fan speed is enforced during all bridges and overhangs.");
271 def->sidetext = L("%");
272 def->min = 0;
273 def->max = 100;
274 def->mode = comExpert;
275 def->set_default_value(new ConfigOptionInts { 100 });
276
277 def = this->add("bridge_flow_ratio", coFloat);
278 def->label = L("Bridge flow ratio");
279 def->category = L("Advanced");
280 def->tooltip = L("This factor affects the amount of plastic for bridging. "
281 "You can decrease it slightly to pull the extrudates and prevent sagging, "
282 "although default settings are usually good and you should experiment "
283 "with cooling (use a fan) before tweaking this.");
284 def->min = 0;
285 def->max = 2;
286 def->mode = comAdvanced;
287 def->set_default_value(new ConfigOptionFloat(1));
288
289 def = this->add("bridge_speed", coFloat);
290 def->label = L("Bridges");
291 def->category = L("Speed");
292 def->tooltip = L("Speed for printing bridges.");
293 def->sidetext = L("mm/s");
294 def->aliases = { "bridge_feed_rate" };
295 def->min = 0;
296 def->mode = comAdvanced;
297 def->set_default_value(new ConfigOptionFloat(60));
298
299 def = this->add("brim_width", coFloat);
300 def->label = L("Brim width");
301 def->tooltip = L("Horizontal width of the brim that will be printed around each object on the first layer.");
302 def->sidetext = L("mm");
303 def->min = 0;
304 def->mode = comSimple;
305 def->set_default_value(new ConfigOptionFloat(0));
306
307 def = this->add("clip_multipart_objects", coBool);
308 def->label = L("Clip multi-part objects");
309 def->tooltip = L("When printing multi-material objects, this settings will make Slic3r "
310 "to clip the overlapping object parts one by the other "
311 "(2nd part will be clipped by the 1st, 3rd part will be clipped by the 1st and 2nd etc).");
312 def->mode = comExpert;
313 def->set_default_value(new ConfigOptionBool(true));
314
315 def = this->add("colorprint_heights", coFloats);
316 def->label = L("Colorprint height");
317 def->tooltip = L("Heights at which a filament change is to occur.");
318 def->set_default_value(new ConfigOptionFloats { });
319
320 def = this->add("compatible_printers", coStrings);
321 def->label = L("Compatible printers");
322 def->mode = comAdvanced;
323 def->set_default_value(new ConfigOptionStrings());
324 def->cli = ConfigOptionDef::nocli;
325
326 def = this->add("compatible_printers_condition", coString);
327 def->label = L("Compatible printers condition");
328 def->tooltip = L("A boolean expression using the configuration values of an active printer profile. "
329 "If this expression evaluates to true, this profile is considered compatible "
330 "with the active printer profile.");
331 def->mode = comExpert;
332 def->set_default_value(new ConfigOptionString());
333 def->cli = ConfigOptionDef::nocli;
334
335 def = this->add("compatible_prints", coStrings);
336 def->label = L("Compatible print profiles");
337 def->mode = comAdvanced;
338 def->set_default_value(new ConfigOptionStrings());
339 def->cli = ConfigOptionDef::nocli;
340
341 def = this->add("compatible_prints_condition", coString);
342 def->label = L("Compatible print profiles condition");
343 def->tooltip = L("A boolean expression using the configuration values of an active print profile. "
344 "If this expression evaluates to true, this profile is considered compatible "
345 "with the active print profile.");
346 def->mode = comExpert;
347 def->set_default_value(new ConfigOptionString());
348 def->cli = ConfigOptionDef::nocli;
349
350 // The following value is to be stored into the project file (AMF, 3MF, Config ...)
351 // and it contains a sum of "compatible_printers_condition" values over the print and filament profiles.
352 def = this->add("compatible_printers_condition_cummulative", coStrings);
353 def->set_default_value(new ConfigOptionStrings());
354 def->cli = ConfigOptionDef::nocli;
355 def = this->add("compatible_prints_condition_cummulative", coStrings);
356 def->set_default_value(new ConfigOptionStrings());
357 def->cli = ConfigOptionDef::nocli;
358
359 def = this->add("complete_objects", coBool);
360 def->label = L("Complete individual objects");
361 def->tooltip = L("When printing multiple objects or copies, this feature will complete "
362 "each object before moving onto next one (and starting it from its bottom layer). "
363 "This feature is useful to avoid the risk of ruined prints. "
364 "Slic3r should warn and prevent you from extruder collisions, but beware.");
365 def->mode = comAdvanced;
366 def->set_default_value(new ConfigOptionBool(false));
367
368 def = this->add("cooling", coBools);
369 def->label = L("Enable auto cooling");
370 def->tooltip = L("This flag enables the automatic cooling logic that adjusts print speed "
371 "and fan speed according to layer printing time.");
372 def->set_default_value(new ConfigOptionBools { true });
373
374 def = this->add("cooling_tube_retraction", coFloat);
375 def->label = L("Cooling tube position");
376 def->tooltip = L("Distance of the center-point of the cooling tube from the extruder tip.");
377 def->sidetext = L("mm");
378 def->min = 0;
379 def->mode = comAdvanced;
380 def->set_default_value(new ConfigOptionFloat(91.5f));
381
382 def = this->add("cooling_tube_length", coFloat);
383 def->label = L("Cooling tube length");
384 def->tooltip = L("Length of the cooling tube to limit space for cooling moves inside it.");
385 def->sidetext = L("mm");
386 def->min = 0;
387 def->mode = comAdvanced;
388 def->set_default_value(new ConfigOptionFloat(5.f));
389
390 def = this->add("default_acceleration", coFloat);
391 def->label = L("Default");
392 def->tooltip = L("This is the acceleration your printer will be reset to after "
393 "the role-specific acceleration values are used (perimeter/infill). "
394 "Set zero to prevent resetting acceleration at all.");
395 def->sidetext = L("mm/s²");
396 def->min = 0;
397 def->mode = comExpert;
398 def->set_default_value(new ConfigOptionFloat(0));
399
400 def = this->add("default_filament_profile", coStrings);
401 def->label = L("Default filament profile");
402 def->tooltip = L("Default filament profile associated with the current printer profile. "
403 "On selection of the current printer profile, this filament profile will be activated.");
404 def->set_default_value(new ConfigOptionStrings());
405 def->cli = ConfigOptionDef::nocli;
406
407 def = this->add("default_print_profile", coString);
408 def->label = L("Default print profile");
409 def->tooltip = L("Default print profile associated with the current printer profile. "
410 "On selection of the current printer profile, this print profile will be activated.");
411 def->set_default_value(new ConfigOptionString());
412 def->cli = ConfigOptionDef::nocli;
413
414 def = this->add("disable_fan_first_layers", coInts);
415 def->label = L("Disable fan for the first");
416 def->tooltip = L("You can set this to a positive value to disable fan at all "
417 "during the first layers, so that it does not make adhesion worse.");
418 def->sidetext = L("layers");
419 def->min = 0;
420 def->max = 1000;
421 def->mode = comExpert;
422 def->set_default_value(new ConfigOptionInts { 3 });
423
424 def = this->add("dont_support_bridges", coBool);
425 def->label = L("Don't support bridges");
426 def->category = L("Support material");
427 def->tooltip = L("Experimental option for preventing support material from being generated "
428 "under bridged areas.");
429 def->mode = comAdvanced;
430 def->set_default_value(new ConfigOptionBool(true));
431
432 def = this->add("duplicate_distance", coFloat);
433 def->label = L("Distance between copies");
434 def->tooltip = L("Distance used for the auto-arrange feature of the plater.");
435 def->sidetext = L("mm");
436 def->aliases = { "multiply_distance" };
437 def->min = 0;
438 def->set_default_value(new ConfigOptionFloat(6));
439
440 def = this->add("end_gcode", coString);
441 def->label = L("End G-code");
442 def->tooltip = L("This end procedure is inserted at the end of the output file. "
443 "Note that you can use placeholder variables for all PrusaSlicer settings.");
444 def->multiline = true;
445 def->full_width = true;
446 def->height = 12;
447 def->mode = comExpert;
448 def->set_default_value(new ConfigOptionString("M104 S0 ; turn off temperature\nG28 X0 ; home X axis\nM84 ; disable motors\n"));
449
450 def = this->add("end_filament_gcode", coStrings);
451 def->label = L("End G-code");
452 def->tooltip = L("This end procedure is inserted at the end of the output file, before the printer end gcode (and "
453 "before any toolchange from this filament in case of multimaterial printers). "
454 "Note that you can use placeholder variables for all PrusaSlicer settings. "
455 "If you have multiple extruders, the gcode is processed in extruder order.");
456 def->multiline = true;
457 def->full_width = true;
458 def->height = 120;
459 def->mode = comExpert;
460 def->set_default_value(new ConfigOptionStrings { "; Filament-specific end gcode \n;END gcode for filament\n" });
461
462 def = this->add("ensure_vertical_shell_thickness", coBool);
463 def->label = L("Ensure vertical shell thickness");
464 def->category = L("Layers and Perimeters");
465 def->tooltip = L("Add solid infill near sloping surfaces to guarantee the vertical shell thickness "
466 "(top+bottom solid layers).");
467 def->mode = comAdvanced;
468 def->set_default_value(new ConfigOptionBool(false));
469
470 auto def_top_fill_pattern = def = this->add("top_fill_pattern", coEnum);
471 def->label = L("Top fill pattern");
472 def->category = L("Infill");
473 def->tooltip = L("Fill pattern for top infill. This only affects the top visible layer, and not its adjacent solid shells.");
474 def->cli = "top-fill-pattern|external-fill-pattern|solid-fill-pattern";
475 def->enum_keys_map = &ConfigOptionEnum<InfillPattern>::get_enum_values();
476 def->enum_values.push_back("rectilinear");
477 def->enum_values.push_back("monotonic");
478 def->enum_values.push_back("alignedrectilinear");
479 def->enum_values.push_back("concentric");
480 def->enum_values.push_back("hilbertcurve");
481 def->enum_values.push_back("archimedeanchords");
482 def->enum_values.push_back("octagramspiral");
483 def->enum_labels.push_back(L("Rectilinear"));
484 def->enum_labels.push_back(L("Monotonic"));
485 def->enum_labels.push_back(L("Aligned Rectilinear"));
486 def->enum_labels.push_back(L("Concentric"));
487 def->enum_labels.push_back(L("Hilbert Curve"));
488 def->enum_labels.push_back(L("Archimedean Chords"));
489 def->enum_labels.push_back(L("Octagram Spiral"));
490 // solid_fill_pattern is an obsolete equivalent to top_fill_pattern/bottom_fill_pattern.
491 def->aliases = { "solid_fill_pattern", "external_fill_pattern" };
492 def->set_default_value(new ConfigOptionEnum<InfillPattern>(ipMonotonic));
493
494 def = this->add("bottom_fill_pattern", coEnum);
495 def->label = L("Bottom fill pattern");
496 def->category = L("Infill");
497 def->tooltip = L("Fill pattern for bottom infill. This only affects the bottom external visible layer, and not its adjacent solid shells.");
498 def->cli = "bottom-fill-pattern|external-fill-pattern|solid-fill-pattern";
499 def->enum_keys_map = &ConfigOptionEnum<InfillPattern>::get_enum_values();
500 def->enum_values = def_top_fill_pattern->enum_values;
501 def->enum_labels = def_top_fill_pattern->enum_labels;
502 def->aliases = def_top_fill_pattern->aliases;
503 def->set_default_value(new ConfigOptionEnum<InfillPattern>(ipMonotonic));
504
505 def = this->add("external_perimeter_extrusion_width", coFloatOrPercent);
506 def->label = L("External perimeters");
507 def->category = L("Extrusion Width");
508 def->tooltip = L("Set this to a non-zero value to set a manual extrusion width for external perimeters. "
509 "If left zero, default extrusion width will be used if set, otherwise 1.125 x nozzle diameter will be used. "
510 "If expressed as percentage (for example 200%), it will be computed over layer height.");
511 def->sidetext = L("mm or %");
512 def->min = 0;
513 def->mode = comAdvanced;
514 def->set_default_value(new ConfigOptionFloatOrPercent(0, false));
515
516 def = this->add("external_perimeter_speed", coFloatOrPercent);
517 def->label = L("External perimeters");
518 def->category = L("Speed");
519 def->tooltip = L("This separate setting will affect the speed of external perimeters (the visible ones). "
520 "If expressed as percentage (for example: 80%) it will be calculated "
521 "on the perimeters speed setting above. Set to zero for auto.");
522 def->sidetext = L("mm/s or %");
523 def->ratio_over = "perimeter_speed";
524 def->min = 0;
525 def->mode = comAdvanced;
526 def->set_default_value(new ConfigOptionFloatOrPercent(50, true));
527
528 def = this->add("external_perimeters_first", coBool);
529 def->label = L("External perimeters first");
530 def->category = L("Layers and Perimeters");
531 def->tooltip = L("Print contour perimeters from the outermost one to the innermost one "
532 "instead of the default inverse order.");
533 def->mode = comExpert;
534 def->set_default_value(new ConfigOptionBool(false));
535
536 def = this->add("extra_perimeters", coBool);
537 def->label = L("Extra perimeters if needed");
538 def->category = L("Layers and Perimeters");
539 def->tooltip = L("Add more perimeters when needed for avoiding gaps in sloping walls. "
540 "Slic3r keeps adding perimeters, until more than 70% of the loop immediately above "
541 "is supported.");
542 def->mode = comExpert;
543 def->set_default_value(new ConfigOptionBool(true));
544
545 def = this->add("extruder", coInt);
546 def->gui_type = "i_enum_open";
547 def->label = L("Extruder");
548 def->category = L("Extruders");
549 def->tooltip = L("The extruder to use (unless more specific extruder settings are specified). "
550 "This value overrides perimeter and infill extruders, but not the support extruders.");
551 def->min = 0; // 0 = inherit defaults
552 def->enum_labels.push_back(L("default")); // override label for item 0
553 def->enum_labels.push_back("1");
554 def->enum_labels.push_back("2");
555 def->enum_labels.push_back("3");
556 def->enum_labels.push_back("4");
557 def->enum_labels.push_back("5");
558
559 def = this->add("extruder_clearance_height", coFloat);
560 def->label = L("Height");
561 def->tooltip = L("Set this to the vertical distance between your nozzle tip and (usually) the X carriage rods. "
562 "In other words, this is the height of the clearance cylinder around your extruder, "
563 "and it represents the maximum depth the extruder can peek before colliding with "
564 "other printed objects.");
565 def->sidetext = L("mm");
566 def->min = 0;
567 def->mode = comExpert;
568 def->set_default_value(new ConfigOptionFloat(20));
569
570 def = this->add("extruder_clearance_radius", coFloat);
571 def->label = L("Radius");
572 def->tooltip = L("Set this to the clearance radius around your extruder. "
573 "If the extruder is not centered, choose the largest value for safety. "
574 "This setting is used to check for collisions and to display the graphical preview "
575 "in the plater.");
576 def->sidetext = L("mm");
577 def->min = 0;
578 def->mode = comExpert;
579 def->set_default_value(new ConfigOptionFloat(20));
580
581 def = this->add("extruder_colour", coStrings);
582 def->label = L("Extruder Color");
583 def->tooltip = L("This is only used in the Slic3r interface as a visual help.");
584 def->gui_type = "color";
585 // Empty string means no color assigned yet.
586 def->set_default_value(new ConfigOptionStrings { "" });
587
588 def = this->add("extruder_offset", coPoints);
589 def->label = L("Extruder offset");
590 def->tooltip = L("If your firmware doesn't handle the extruder displacement you need the G-code "
591 "to take it into account. This option lets you specify the displacement of each extruder "
592 "with respect to the first one. It expects positive coordinates (they will be subtracted "
593 "from the XY coordinate).");
594 def->sidetext = L("mm");
595 def->mode = comAdvanced;
596 def->set_default_value(new ConfigOptionPoints { Vec2d(0,0) });
597
598 def = this->add("extrusion_axis", coString);
599 def->label = L("Extrusion axis");
600 def->tooltip = L("Use this option to set the axis letter associated to your printer's extruder "
601 "(usually E but some printers use A).");
602 def->set_default_value(new ConfigOptionString("E"));
603
604 def = this->add("extrusion_multiplier", coFloats);
605 def->label = L("Extrusion multiplier");
606 def->tooltip = L("This factor changes the amount of flow proportionally. You may need to tweak "
607 "this setting to get nice surface finish and correct single wall widths. "
608 "Usual values are between 0.9 and 1.1. If you think you need to change this more, "
609 "check filament diameter and your firmware E steps.");
610 def->max = 2;
611 def->mode = comAdvanced;
612 def->set_default_value(new ConfigOptionFloats { 1. });
613
614 def = this->add("extrusion_width", coFloatOrPercent);
615 def->label = L("Default extrusion width");
616 def->category = L("Extrusion Width");
617 def->tooltip = L("Set this to a non-zero value to allow a manual extrusion width. "
618 "If left to zero, Slic3r derives extrusion widths from the nozzle diameter "
619 "(see the tooltips for perimeter extrusion width, infill extrusion width etc). "
620 "If expressed as percentage (for example: 230%), it will be computed over layer height.");
621 def->sidetext = L("mm or %");
622 def->min = 0;
623 def->max = 1000;
624 def->mode = comAdvanced;
625 def->set_default_value(new ConfigOptionFloatOrPercent(0, false));
626
627 def = this->add("fan_always_on", coBools);
628 def->label = L("Keep fan always on");
629 def->tooltip = L("If this is enabled, fan will never be disabled and will be kept running at least "
630 "at its minimum speed. Useful for PLA, harmful for ABS.");
631 def->set_default_value(new ConfigOptionBools { false });
632
633 def = this->add("fan_below_layer_time", coInts);
634 def->label = L("Enable fan if layer print time is below");
635 def->tooltip = L("If layer print time is estimated below this number of seconds, fan will be enabled "
636 "and its speed will be calculated by interpolating the minimum and maximum speeds.");
637 def->sidetext = L("approximate seconds");
638 def->min = 0;
639 def->max = 1000;
640 def->mode = comExpert;
641 def->set_default_value(new ConfigOptionInts { 60 });
642
643 def = this->add("filament_colour", coStrings);
644 def->label = L("Color");
645 def->tooltip = L("This is only used in the Slic3r interface as a visual help.");
646 def->gui_type = "color";
647 def->set_default_value(new ConfigOptionStrings { "#29B2B2" });
648
649 def = this->add("filament_notes", coStrings);
650 def->label = L("Filament notes");
651 def->tooltip = L("You can put your notes regarding the filament here.");
652 def->multiline = true;
653 def->full_width = true;
654 def->height = 13;
655 def->mode = comAdvanced;
656 def->set_default_value(new ConfigOptionStrings { "" });
657
658 def = this->add("filament_max_volumetric_speed", coFloats);
659 def->label = L("Max volumetric speed");
660 def->tooltip = L("Maximum volumetric speed allowed for this filament. Limits the maximum volumetric "
661 "speed of a print to the minimum of print and filament volumetric speed. "
662 "Set to zero for no limit.");
663 def->sidetext = L("mm³/s");
664 def->min = 0;
665 def->mode = comAdvanced;
666 def->set_default_value(new ConfigOptionFloats { 0. });
667
668 def = this->add("filament_loading_speed", coFloats);
669 def->label = L("Loading speed");
670 def->tooltip = L("Speed used for loading the filament on the wipe tower.");
671 def->sidetext = L("mm/s");
672 def->min = 0;
673 def->mode = comExpert;
674 def->set_default_value(new ConfigOptionFloats { 28. });
675
676 def = this->add("filament_loading_speed_start", coFloats);
677 def->label = L("Loading speed at the start");
678 def->tooltip = L("Speed used at the very beginning of loading phase.");
679 def->sidetext = L("mm/s");
680 def->min = 0;
681 def->mode = comExpert;
682 def->set_default_value(new ConfigOptionFloats { 3. });
683
684 def = this->add("filament_unloading_speed", coFloats);
685 def->label = L("Unloading speed");
686 def->tooltip = L("Speed used for unloading the filament on the wipe tower (does not affect "
687 " initial part of unloading just after ramming).");
688 def->sidetext = L("mm/s");
689 def->min = 0;
690 def->mode = comExpert;
691 def->set_default_value(new ConfigOptionFloats { 90. });
692
693 def = this->add("filament_unloading_speed_start", coFloats);
694 def->label = L("Unloading speed at the start");
695 def->tooltip = L("Speed used for unloading the tip of the filament immediately after ramming.");
696 def->sidetext = L("mm/s");
697 def->min = 0;
698 def->mode = comExpert;
699 def->set_default_value(new ConfigOptionFloats { 100. });
700
701 def = this->add("filament_toolchange_delay", coFloats);
702 def->label = L("Delay after unloading");
703 def->tooltip = L("Time to wait after the filament is unloaded. "
704 "May help to get reliable toolchanges with flexible materials "
705 "that may need more time to shrink to original dimensions.");
706 def->sidetext = L("s");
707 def->min = 0;
708 def->mode = comExpert;
709 def->set_default_value(new ConfigOptionFloats { 0. });
710
711 def = this->add("filament_cooling_moves", coInts);
712 def->label = L("Number of cooling moves");
713 def->tooltip = L("Filament is cooled by being moved back and forth in the "
714 "cooling tubes. Specify desired number of these moves.");
715 def->max = 0;
716 def->max = 20;
717 def->mode = comExpert;
718 def->set_default_value(new ConfigOptionInts { 4 });
719
720 def = this->add("filament_cooling_initial_speed", coFloats);
721 def->label = L("Speed of the first cooling move");
722 def->tooltip = L("Cooling moves are gradually accelerating beginning at this speed.");
723 def->sidetext = L("mm/s");
724 def->min = 0;
725 def->mode = comExpert;
726 def->set_default_value(new ConfigOptionFloats { 2.2f });
727
728 def = this->add("filament_minimal_purge_on_wipe_tower", coFloats);
729 def->label = L("Minimal purge on wipe tower");
730 def->tooltip = L("After a tool change, the exact position of the newly loaded filament inside "
731 "the nozzle may not be known, and the filament pressure is likely not yet stable. "
732 "Before purging the print head into an infill or a sacrificial object, Slic3r will always prime "
733 "this amount of material into the wipe tower to produce successive infill or sacrificial object extrusions reliably.");
734 def->sidetext = L("mm³");
735 def->min = 0;
736 def->mode = comExpert;
737 def->set_default_value(new ConfigOptionFloats { 15.f });
738
739 def = this->add("filament_cooling_final_speed", coFloats);
740 def->label = L("Speed of the last cooling move");
741 def->tooltip = L("Cooling moves are gradually accelerating towards this speed.");
742 def->sidetext = L("mm/s");
743 def->min = 0;
744 def->mode = comExpert;
745 def->set_default_value(new ConfigOptionFloats { 3.4f });
746
747 def = this->add("filament_load_time", coFloats);
748 def->label = L("Filament load time");
749 def->tooltip = L("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.");
750 def->sidetext = L("s");
751 def->min = 0;
752 def->mode = comExpert;
753 def->set_default_value(new ConfigOptionFloats { 0.0f });
754
755 def = this->add("filament_ramming_parameters", coStrings);
756 def->label = L("Ramming parameters");
757 def->tooltip = L("This string is edited by RammingDialog and contains ramming specific parameters.");
758 def->mode = comExpert;
759 def->set_default_value(new ConfigOptionStrings { "120 100 6.6 6.8 7.2 7.6 7.9 8.2 8.7 9.4 9.9 10.0|"
760 " 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" });
761
762 def = this->add("filament_unload_time", coFloats);
763 def->label = L("Filament unload time");
764 def->tooltip = L("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.");
765 def->sidetext = L("s");
766 def->min = 0;
767 def->mode = comExpert;
768 def->set_default_value(new ConfigOptionFloats { 0.0f });
769
770 def = this->add("filament_diameter", coFloats);
771 def->label = L("Diameter");
772 def->tooltip = L("Enter your filament diameter here. Good precision is required, so use a caliper "
773 "and do multiple measurements along the filament, then compute the average.");
774 def->sidetext = L("mm");
775 def->min = 0;
776 def->set_default_value(new ConfigOptionFloats { 1.75 });
777
778 def = this->add("filament_density", coFloats);
779 def->label = L("Density");
780 def->tooltip = L("Enter your filament density here. This is only for statistical information. "
781 "A decent way is to weigh a known length of filament and compute the ratio "
782 "of the length to volume. Better is to calculate the volume directly through displacement.");
783 def->sidetext = L("g/cm³");
784 def->min = 0;
785 def->set_default_value(new ConfigOptionFloats { 0. });
786
787 def = this->add("filament_type", coStrings);
788 def->label = L("Filament type");
789 def->tooltip = L("The filament material type for use in custom G-codes.");
790 def->gui_type = "f_enum_open";
791 def->gui_flags = "show_value";
792 def->enum_values.push_back("PLA");
793 def->enum_values.push_back("PET");
794 def->enum_values.push_back("ABS");
795 def->enum_values.push_back("ASA");
796 def->enum_values.push_back("FLEX");
797 def->enum_values.push_back("HIPS");
798 def->enum_values.push_back("EDGE");
799 def->enum_values.push_back("NGEN");
800 def->enum_values.push_back("NYLON");
801 def->enum_values.push_back("PVA");
802 def->enum_values.push_back("PC");
803 def->enum_values.push_back("PP");
804 def->enum_values.push_back("PEI");
805 def->enum_values.push_back("PEEK");
806 def->enum_values.push_back("PEKK");
807 def->enum_values.push_back("POM");
808 def->enum_values.push_back("PSU");
809 def->enum_values.push_back("PVDF");
810 def->enum_values.push_back("SCAFF");
811
812 def->mode = comAdvanced;
813 def->set_default_value(new ConfigOptionStrings { "PLA" });
814
815 def = this->add("filament_soluble", coBools);
816 def->label = L("Soluble material");
817 def->tooltip = L("Soluble material is most likely used for a soluble support.");
818 def->mode = comAdvanced;
819 def->set_default_value(new ConfigOptionBools { false });
820
821 def = this->add("filament_cost", coFloats);
822 def->label = L("Cost");
823 def->tooltip = L("Enter your filament cost per kg here. This is only for statistical information.");
824 def->sidetext = L("money/kg");
825 def->min = 0;
826 def->set_default_value(new ConfigOptionFloats { 0. });
827
828 def = this->add("filament_spool_weight", coFloats);
829 def->label = L("Spool weight");
830 def->tooltip = L("Enter weight of the empty filament spool. "
831 "One may weigh a partially consumed filament spool before printing and one may compare the measured weight "
832 "with the calculated weight of the filament with the spool to find out whether the amount "
833 "of filament on the spool is sufficient to finish the print.");
834 def->sidetext = L("g");
835 def->min = 0;
836 def->set_default_value(new ConfigOptionFloats { 0. });
837
838 def = this->add("filament_settings_id", coStrings);
839 def->set_default_value(new ConfigOptionStrings { "" });
840 def->cli = ConfigOptionDef::nocli;
841
842 def = this->add("filament_vendor", coString);
843 def->set_default_value(new ConfigOptionString(L("(Unknown)")));
844 def->cli = ConfigOptionDef::nocli;
845
846 def = this->add("fill_angle", coFloat);
847 def->label = L("Fill angle");
848 def->category = L("Infill");
849 def->tooltip = L("Default base angle for infill orientation. Cross-hatching will be applied to this. "
850 "Bridges will be infilled using the best direction Slic3r can detect, so this setting "
851 "does not affect them.");
852 def->sidetext = L("°");
853 def->min = 0;
854 def->max = 360;
855 def->mode = comAdvanced;
856 def->set_default_value(new ConfigOptionFloat(45));
857
858 def = this->add("fill_density", coPercent);
859 def->gui_type = "f_enum_open";
860 def->gui_flags = "show_value";
861 def->label = L("Fill density");
862 def->category = L("Infill");
863 def->tooltip = L("Density of internal infill, expressed in the range 0% - 100%.");
864 def->sidetext = L("%");
865 def->min = 0;
866 def->max = 100;
867 def->enum_values.push_back("0");
868 def->enum_values.push_back("5");
869 def->enum_values.push_back("10");
870 def->enum_values.push_back("15");
871 def->enum_values.push_back("20");
872 def->enum_values.push_back("25");
873 def->enum_values.push_back("30");
874 def->enum_values.push_back("40");
875 def->enum_values.push_back("50");
876 def->enum_values.push_back("60");
877 def->enum_values.push_back("70");
878 def->enum_values.push_back("80");
879 def->enum_values.push_back("90");
880 def->enum_values.push_back("100");
881 def->enum_labels.push_back("0%");
882 def->enum_labels.push_back("5%");
883 def->enum_labels.push_back("10%");
884 def->enum_labels.push_back("15%");
885 def->enum_labels.push_back("20%");
886 def->enum_labels.push_back("25%");
887 def->enum_labels.push_back("30%");
888 def->enum_labels.push_back("40%");
889 def->enum_labels.push_back("50%");
890 def->enum_labels.push_back("60%");
891 def->enum_labels.push_back("70%");
892 def->enum_labels.push_back("80%");
893 def->enum_labels.push_back("90%");
894 def->enum_labels.push_back("100%");
895 def->set_default_value(new ConfigOptionPercent(20));
896
897 def = this->add("fill_pattern", coEnum);
898 def->label = L("Fill pattern");
899 def->category = L("Infill");
900 def->tooltip = L("Fill pattern for general low-density infill.");
901 def->enum_keys_map = &ConfigOptionEnum<InfillPattern>::get_enum_values();
902 def->enum_values.push_back("rectilinear");
903 def->enum_values.push_back("alignedrectilinear");
904 def->enum_values.push_back("grid");
905 def->enum_values.push_back("triangles");
906 def->enum_values.push_back("stars");
907 def->enum_values.push_back("cubic");
908 def->enum_values.push_back("line");
909 def->enum_values.push_back("concentric");
910 def->enum_values.push_back("honeycomb");
911 def->enum_values.push_back("3dhoneycomb");
912 def->enum_values.push_back("gyroid");
913 def->enum_values.push_back("hilbertcurve");
914 def->enum_values.push_back("archimedeanchords");
915 def->enum_values.push_back("octagramspiral");
916 def->enum_values.push_back("adaptivecubic");
917 def->enum_values.push_back("supportcubic");
918 def->enum_labels.push_back(L("Rectilinear"));
919 def->enum_labels.push_back(L("Aligned Rectilinear"));
920 def->enum_labels.push_back(L("Grid"));
921 def->enum_labels.push_back(L("Triangles"));
922 def->enum_labels.push_back(L("Stars"));
923 def->enum_labels.push_back(L("Cubic"));
924 def->enum_labels.push_back(L("Line"));
925 def->enum_labels.push_back(L("Concentric"));
926 def->enum_labels.push_back(L("Honeycomb"));
927 def->enum_labels.push_back(L("3D Honeycomb"));
928 def->enum_labels.push_back(L("Gyroid"));
929 def->enum_labels.push_back(L("Hilbert Curve"));
930 def->enum_labels.push_back(L("Archimedean Chords"));
931 def->enum_labels.push_back(L("Octagram Spiral"));
932 def->enum_labels.push_back(L("Adaptive Cubic"));
933 def->enum_labels.push_back(L("Support Cubic"));
934 def->set_default_value(new ConfigOptionEnum<InfillPattern>(ipStars));
935
936 def = this->add("first_layer_acceleration", coFloat);
937 def->label = L("First layer");
938 def->tooltip = L("This is the acceleration your printer will use for first layer. Set zero "
939 "to disable acceleration control for first layer.");
940 def->sidetext = L("mm/s²");
941 def->min = 0;
942 def->mode = comExpert;
943 def->set_default_value(new ConfigOptionFloat(0));
944
945 def = this->add("first_layer_bed_temperature", coInts);
946 def->label = L("First layer");
947 def->full_label = L("First layer bed temperature");
948 def->tooltip = L("Heated build plate temperature for the first layer. Set this to zero to disable "
949 "bed temperature control commands in the output.");
950 def->sidetext = L("°C");
951 def->max = 0;
952 def->max = 300;
953 def->set_default_value(new ConfigOptionInts { 0 });
954
955 def = this->add("first_layer_extrusion_width", coFloatOrPercent);
956 def->label = L("First layer");
957 def->category = L("Extrusion Width");
958 def->tooltip = L("Set this to a non-zero value to set a manual extrusion width for first layer. "
959 "You can use this to force fatter extrudates for better adhesion. If expressed "
960 "as percentage (for example 120%) it will be computed over first layer height. "
961 "If set to zero, it will use the default extrusion width.");
962 def->sidetext = L("mm or %");
963 def->ratio_over = "first_layer_height";
964 def->min = 0;
965 def->mode = comAdvanced;
966 def->set_default_value(new ConfigOptionFloatOrPercent(200, true));
967
968 def = this->add("first_layer_height", coFloatOrPercent);
969 def->label = L("First layer height");
970 def->category = L("Layers and Perimeters");
971 def->tooltip = L("When printing with very low layer heights, you might still want to print a thicker "
972 "bottom layer to improve adhesion and tolerance for non perfect build plates. "
973 "This can be expressed as an absolute value or as a percentage (for example: 150%) "
974 "over the default layer height.");
975 def->sidetext = L("mm or %");
976 def->ratio_over = "layer_height";
977 def->set_default_value(new ConfigOptionFloatOrPercent(0.35, false));
978
979 def = this->add("first_layer_speed", coFloatOrPercent);
980 def->label = L("First layer speed");
981 def->tooltip = L("If expressed as absolute value in mm/s, this speed will be applied to all the print moves "
982 "of the first layer, regardless of their type. If expressed as a percentage "
983 "(for example: 40%) it will scale the default speeds.");
984 def->sidetext = L("mm/s or %");
985 def->min = 0;
986 def->mode = comAdvanced;
987 def->set_default_value(new ConfigOptionFloatOrPercent(30, false));
988
989 def = this->add("first_layer_temperature", coInts);
990 def->label = L("First layer");
991 def->full_label = L("First layer nozzle temperature");
992 def->tooltip = L("Nozzle temperature for the first layer. If you want to control temperature manually "
993 "during print, set this to zero to disable temperature control commands in the output G-code.");
994 def->sidetext = L("°C");
995 def->min = 0;
996 def->max = max_temp;
997 def->set_default_value(new ConfigOptionInts { 200 });
998
999 def = this->add("full_fan_speed_layer", coInts);
1000 def->label = L("Full fan speed at layer");
1001 def->tooltip = L("Fan speed will be ramped up linearly from zero at layer \"disable_fan_first_layers\" "
1002 "to maximum at layer \"full_fan_speed_layer\". "
1003 "\"full_fan_speed_layer\" will be ignored if lower than \"disable_fan_first_layers\", in which case "
1004 "the fan will be running at maximum allowed speed at layer \"disable_fan_first_layers\" + 1.");
1005 def->min = 0;
1006 def->max = 1000;
1007 def->mode = comExpert;
1008 def->set_default_value(new ConfigOptionInts { 0 });
1009
1010 def = this->add("gap_fill_speed", coFloat);
1011 def->label = L("Gap fill");
1012 def->category = L("Speed");
1013 def->tooltip = L("Speed for filling small gaps using short zigzag moves. Keep this reasonably low "
1014 "to avoid too much shaking and resonance issues. Set zero to disable gaps filling.");
1015 def->sidetext = L("mm/s");
1016 def->min = 0;
1017 def->mode = comAdvanced;
1018 def->set_default_value(new ConfigOptionFloat(20));
1019
1020 def = this->add("gcode_comments", coBool);
1021 def->label = L("Verbose G-code");
1022 def->tooltip = L("Enable this to get a commented G-code file, with each line explained by a descriptive text. "
1023 "If you print from SD card, the additional weight of the file could make your firmware "
1024 "slow down.");
1025 def->mode = comExpert;
1026 def->set_default_value(new ConfigOptionBool(0));
1027
1028 def = this->add("gcode_flavor", coEnum);
1029 def->label = L("G-code flavor");
1030 def->tooltip = L("Some G/M-code commands, including temperature control and others, are not universal. "
1031 "Set this option to your printer's firmware to get a compatible output. "
1032 "The \"No extrusion\" flavor prevents PrusaSlicer from exporting any extrusion value at all.");
1033 def->enum_keys_map = &ConfigOptionEnum<GCodeFlavor>::get_enum_values();
1034 def->enum_values.push_back("reprap");
1035 def->enum_values.push_back("reprapfirmware");
1036 def->enum_values.push_back("repetier");
1037 def->enum_values.push_back("teacup");
1038 def->enum_values.push_back("makerware");
1039 def->enum_values.push_back("marlin");
1040 def->enum_values.push_back("sailfish");
1041 def->enum_values.push_back("mach3");
1042 def->enum_values.push_back("machinekit");
1043 def->enum_values.push_back("smoothie");
1044 def->enum_values.push_back("no-extrusion");
1045 def->enum_labels.push_back("RepRap/Sprinter");
1046 def->enum_labels.push_back("RepRapFirmware");
1047 def->enum_labels.push_back("Repetier");
1048 def->enum_labels.push_back("Teacup");
1049 def->enum_labels.push_back("MakerWare (MakerBot)");
1050 def->enum_labels.push_back("Marlin");
1051 def->enum_labels.push_back("Sailfish (MakerBot)");
1052 def->enum_labels.push_back("Mach3/LinuxCNC");
1053 def->enum_labels.push_back("Machinekit");
1054 def->enum_labels.push_back("Smoothie");
1055 def->enum_labels.push_back(L("No extrusion"));
1056 def->mode = comExpert;
1057 def->set_default_value(new ConfigOptionEnum<GCodeFlavor>(gcfRepRapSprinter));
1058
1059 def = this->add("gcode_label_objects", coBool);
1060 def->label = L("Label objects");
1061 def->tooltip = L("Enable this to add comments into the G-Code labeling print moves with what object they belong to,"
1062 " which is useful for the Octoprint CancelObject plugin. This settings is NOT compatible with "
1063 "Single Extruder Multi Material setup and Wipe into Object / Wipe into Infill.");
1064 def->mode = comAdvanced;
1065 def->set_default_value(new ConfigOptionBool(0));
1066
1067 def = this->add("high_current_on_filament_swap", coBool);
1068 def->label = L("High extruder current on filament swap");
1069 def->tooltip = L("It may be beneficial to increase the extruder motor current during the filament exchange"
1070 " sequence to allow for rapid ramming feed rates and to overcome resistance when loading"
1071 " a filament with an ugly shaped tip.");
1072 def->mode = comExpert;
1073 def->set_default_value(new ConfigOptionBool(0));
1074
1075 def = this->add("infill_acceleration", coFloat);
1076 def->label = L("Infill");
1077 def->tooltip = L("This is the acceleration your printer will use for infill. Set zero to disable "
1078 "acceleration control for infill.");
1079 def->sidetext = L("mm/s²");
1080 def->min = 0;
1081 def->mode = comExpert;
1082 def->set_default_value(new ConfigOptionFloat(0));
1083
1084 def = this->add("infill_every_layers", coInt);
1085 def->label = L("Combine infill every");
1086 def->category = L("Infill");
1087 def->tooltip = L("This feature allows to combine infill and speed up your print by extruding thicker "
1088 "infill layers while preserving thin perimeters, thus accuracy.");
1089 def->sidetext = L("layers");
1090 def->full_label = L("Combine infill every n layers");
1091 def->min = 1;
1092 def->mode = comAdvanced;
1093 def->set_default_value(new ConfigOptionInt(1));
1094
1095 auto def_infill_anchor_min = def = this->add("infill_anchor", coFloatOrPercent);
1096 def->label = L("Length of the infill anchor");
1097 def->category = L("Advanced");
1098 def->tooltip = L("Connect an infill line to an internal perimeter with a short segment of an additional perimeter. "
1099 "If expressed as percentage (example: 15%) it is calculated over infill extrusion width. "
1100 "PrusaSlicer tries to connect two close infill lines to a short perimeter segment. If no such perimeter segment "
1101 "shorter than infill_anchor_max is found, the infill line is connected to a perimeter segment at just one side "
1102 "and the length of the perimeter segment taken is limited to this parameter, but no longer than anchor_length_max. "
1103 "Set this parameter to zero to disable anchoring perimeters connected to a single infill line.");
1104 def->sidetext = L("mm or %");
1105 def->ratio_over = "infill_extrusion_width";
1106 def->gui_type = "f_enum_open";
1107 def->enum_values.push_back("0");
1108 def->enum_values.push_back("1");
1109 def->enum_values.push_back("2");
1110 def->enum_values.push_back("5");
1111 def->enum_values.push_back("10");
1112 def->enum_values.push_back("1000");
1113 def->enum_labels.push_back(L("0 (no open anchors)"));
1114 def->enum_labels.push_back("1 mm");
1115 def->enum_labels.push_back("2 mm");
1116 def->enum_labels.push_back("5 mm");
1117 def->enum_labels.push_back("10 mm");
1118 def->enum_labels.push_back(L("1000 (unlimited)"));
1119 def->mode = comAdvanced;
1120 def->set_default_value(new ConfigOptionFloatOrPercent(600, true));
1121
1122 def = this->add("infill_anchor_max", coFloatOrPercent);
1123 def->label = L("Maximum length of the infill anchor");
1124 def->category = def_infill_anchor_min->category;
1125 def->tooltip = L("Connect an infill line to an internal perimeter with a short segment of an additional perimeter. "
1126 "If expressed as percentage (example: 15%) it is calculated over infill extrusion width. "
1127 "PrusaSlicer tries to connect two close infill lines to a short perimeter segment. If no such perimeter segment "
1128 "shorter than this parameter is found, the infill line is connected to a perimeter segment at just one side "
1129 "and the length of the perimeter segment taken is limited to infill_anchor, but no longer than this parameter. "
1130 "Set this parameter to zero to disable anchoring.");
1131 def->sidetext = def_infill_anchor_min->sidetext;
1132 def->ratio_over = def_infill_anchor_min->ratio_over;
1133 def->gui_type = def_infill_anchor_min->gui_type;
1134 def->enum_values = def_infill_anchor_min->enum_values;
1135 def->enum_labels.push_back(L("0 (not anchored)"));
1136 def->enum_labels.push_back("1 mm");
1137 def->enum_labels.push_back("2 mm");
1138 def->enum_labels.push_back("5 mm");
1139 def->enum_labels.push_back("10 mm");
1140 def->enum_labels.push_back(L("1000 (unlimited)"));
1141 def->mode = def_infill_anchor_min->mode;
1142 def->set_default_value(new ConfigOptionFloatOrPercent(50, false));
1143
1144 def = this->add("infill_extruder", coInt);
1145 def->label = L("Infill extruder");
1146 def->category = L("Extruders");
1147 def->tooltip = L("The extruder to use when printing infill.");
1148 def->min = 1;
1149 def->mode = comAdvanced;
1150 def->set_default_value(new ConfigOptionInt(1));
1151
1152 def = this->add("infill_extrusion_width", coFloatOrPercent);
1153 def->label = L("Infill");
1154 def->category = L("Extrusion Width");
1155 def->tooltip = L("Set this to a non-zero value to set a manual extrusion width for infill. "
1156 "If left zero, default extrusion width will be used if set, otherwise 1.125 x nozzle diameter will be used. "
1157 "You may want to use fatter extrudates to speed up the infill and make your parts stronger. "
1158 "If expressed as percentage (for example 90%) it will be computed over layer height.");
1159 def->sidetext = L("mm or %");
1160 def->min = 0;
1161 def->mode = comAdvanced;
1162 def->set_default_value(new ConfigOptionFloatOrPercent(0, false));
1163
1164 def = this->add("infill_first", coBool);
1165 def->label = L("Infill before perimeters");
1166 def->tooltip = L("This option will switch the print order of perimeters and infill, making the latter first.");
1167 def->mode = comExpert;
1168 def->set_default_value(new ConfigOptionBool(false));
1169
1170 def = this->add("infill_only_where_needed", coBool);
1171 def->label = L("Only infill where needed");
1172 def->category = L("Infill");
1173 def->tooltip = L("This option will limit infill to the areas actually needed for supporting ceilings "
1174 "(it will act as internal support material). If enabled, slows down the G-code generation "
1175 "due to the multiple checks involved.");
1176 def->mode = comAdvanced;
1177 def->set_default_value(new ConfigOptionBool(false));
1178
1179 def = this->add("infill_overlap", coFloatOrPercent);
1180 def->label = L("Infill/perimeters overlap");
1181 def->category = L("Advanced");
1182 def->tooltip = L("This setting applies an additional overlap between infill and perimeters for better bonding. "
1183 "Theoretically this shouldn't be needed, but backlash might cause gaps. If expressed "
1184 "as percentage (example: 15%) it is calculated over perimeter extrusion width.");
1185 def->sidetext = L("mm or %");
1186 def->ratio_over = "perimeter_extrusion_width";
1187 def->mode = comExpert;
1188 def->set_default_value(new ConfigOptionFloatOrPercent(25, true));
1189
1190 def = this->add("infill_speed", coFloat);
1191 def->label = L("Infill");
1192 def->category = L("Speed");
1193 def->tooltip = L("Speed for printing the internal fill. Set to zero for auto.");
1194 def->sidetext = L("mm/s");
1195 def->aliases = { "print_feed_rate", "infill_feed_rate" };
1196 def->min = 0;
1197 def->mode = comAdvanced;
1198 def->set_default_value(new ConfigOptionFloat(80));
1199
1200 def = this->add("inherits", coString);
1201 def->label = L("Inherits profile");
1202 def->tooltip = L("Name of the profile, from which this profile inherits.");
1203 def->full_width = true;
1204 def->height = 5;
1205 def->set_default_value(new ConfigOptionString());
1206 def->cli = ConfigOptionDef::nocli;
1207
1208 // The following value is to be stored into the project file (AMF, 3MF, Config ...)
1209 // and it contains a sum of "inherits" values over the print and filament profiles.
1210 def = this->add("inherits_cummulative", coStrings);
1211 def->set_default_value(new ConfigOptionStrings());
1212 def->cli = ConfigOptionDef::nocli;
1213
1214 def = this->add("interface_shells", coBool);
1215 def->label = L("Interface shells");
1216 def->tooltip = L("Force the generation of solid shells between adjacent materials/volumes. "
1217 "Useful for multi-extruder prints with translucent materials or manual soluble "
1218 "support material.");
1219 def->category = L("Layers and Perimeters");
1220 def->mode = comExpert;
1221 def->set_default_value(new ConfigOptionBool(false));
1222
1223 def = this->add("ironing", coBool);
1224 def->label = L("Enable ironing");
1225 def->tooltip = L("Enable ironing of the top layers with the hot print head for smooth surface");
1226 def->category = L("Ironing");
1227 def->mode = comAdvanced;
1228 def->set_default_value(new ConfigOptionBool(false));
1229
1230 def = this->add("ironing_type", coEnum);
1231 def->label = L("Ironing Type");
1232 def->category = L("Ironing");
1233 def->tooltip = L("Ironing Type");
1234 def->enum_keys_map = &ConfigOptionEnum<IroningType>::get_enum_values();
1235 def->enum_values.push_back("top");
1236 def->enum_values.push_back("topmost");
1237 def->enum_values.push_back("solid");
1238 def->enum_labels.push_back(L("All top surfaces"));
1239 def->enum_labels.push_back(L("Topmost surface only"));
1240 def->enum_labels.push_back(L("All solid surfaces"));
1241 def->mode = comAdvanced;
1242 def->set_default_value(new ConfigOptionEnum<IroningType>(IroningType::TopSurfaces));
1243
1244 def = this->add("ironing_flowrate", coPercent);
1245 def->label = L("Flow rate");
1246 def->category = L("Ironing");
1247 def->tooltip = L("Percent of a flow rate relative to object's normal layer height.");
1248 def->sidetext = L("%");
1249 def->ratio_over = "layer_height";
1250 def->min = 0;
1251 def->mode = comExpert;
1252 def->set_default_value(new ConfigOptionPercent(15));
1253
1254 def = this->add("ironing_spacing", coFloat);
1255 def->label = L("Spacing between ironing passes");
1256 def->category = L("Ironing");
1257 def->tooltip = L("Distance between ironing lines");
1258 def->sidetext = L("mm");
1259 def->min = 0;
1260 def->mode = comExpert;
1261 def->set_default_value(new ConfigOptionFloat(0.1));
1262
1263 def = this->add("ironing_speed", coFloat);
1264 def->label = L("Ironing");
1265 def->category = L("Speed");
1266 def->tooltip = L("Ironing");
1267 def->sidetext = L("mm/s");
1268 def->min = 0;
1269 def->mode = comAdvanced;
1270 def->set_default_value(new ConfigOptionFloat(15));
1271
1272 def = this->add("layer_gcode", coString);
1273 def->label = L("After layer change G-code");
1274 def->tooltip = L("This custom code is inserted at every layer change, right after the Z move "
1275 "and before the extruder moves to the first layer point. Note that you can use "
1276 "placeholder variables for all Slic3r settings as well as [layer_num] and [layer_z].");
1277 def->cli = "after-layer-gcode|layer-gcode";
1278 def->multiline = true;
1279 def->full_width = true;
1280 def->height = 5;
1281 def->mode = comExpert;
1282 def->set_default_value(new ConfigOptionString(""));
1283
1284 def = this->add("remaining_times", coBool);
1285 def->label = L("Supports remaining times");
1286 def->tooltip = L("Emit M73 P[percent printed] R[remaining time in minutes] at 1 minute"
1287 " intervals into the G-code to let the firmware show accurate remaining time."
1288 " As of now only the Prusa i3 MK3 firmware recognizes M73."
1289 " Also the i3 MK3 firmware supports M73 Qxx Sxx for the silent mode.");
1290 def->mode = comExpert;
1291 def->set_default_value(new ConfigOptionBool(false));
1292
1293 def = this->add("silent_mode", coBool);
1294 def->label = L("Supports stealth mode");
1295 def->tooltip = L("The firmware supports stealth mode");
1296 def->mode = comExpert;
1297 def->set_default_value(new ConfigOptionBool(true));
1298
1299 def = this->add("machine_limits_usage", coEnum);
1300 def->label = L("How to apply limits");
1301 def->full_label = L("Purpose of Machine Limits");
1302 def->category = L("Machine limits");
1303 def->tooltip = L("How to apply the Machine Limits");
1304 def->enum_keys_map = &ConfigOptionEnum<MachineLimitsUsage>::get_enum_values();
1305 def->enum_values.push_back("emit_to_gcode");
1306 def->enum_values.push_back("time_estimate_only");
1307 def->enum_values.push_back("ignore");
1308 def->enum_labels.push_back(L("Emit to G-code"));
1309 def->enum_labels.push_back(L("Use for time estimate"));
1310 def->enum_labels.push_back(L("Ignore"));
1311 def->mode = comAdvanced;
1312 def->set_default_value(new ConfigOptionEnum<MachineLimitsUsage>(MachineLimitsUsage::EmitToGCode));
1313
1314 {
1315 struct AxisDefault {
1316 std::string name;
1317 std::vector<double> max_feedrate;
1318 std::vector<double> max_acceleration;
1319 std::vector<double> max_jerk;
1320 };
1321 std::vector<AxisDefault> axes {
1322 // name, max_feedrate, max_acceleration, max_jerk
1323 { "x", { 500., 200. }, { 9000., 1000. }, { 10. , 10. } },
1324 { "y", { 500., 200. }, { 9000., 1000. }, { 10. , 10. } },
1325 { "z", { 12., 12. }, { 500., 200. }, { 0.2, 0.4 } },
1326 { "e", { 120., 120. }, { 10000., 5000. }, { 2.5, 2.5 } }
1327 };
1328 for (const AxisDefault &axis : axes) {
1329 std::string axis_upper = boost::to_upper_copy<std::string>(axis.name);
1330 // Add the machine feedrate limits for XYZE axes. (M203)
1331 def = this->add("machine_max_feedrate_" + axis.name, coFloats);
1332 def->full_label = (boost::format("Maximum feedrate %1%") % axis_upper).str();
1333 (void)L("Maximum feedrate X");
1334 (void)L("Maximum feedrate Y");
1335 (void)L("Maximum feedrate Z");
1336 (void)L("Maximum feedrate E");
1337 def->category = L("Machine limits");
1338 def->tooltip = (boost::format("Maximum feedrate of the %1% axis") % axis_upper).str();
1339 (void)L("Maximum feedrate of the X axis");
1340 (void)L("Maximum feedrate of the Y axis");
1341 (void)L("Maximum feedrate of the Z axis");
1342 (void)L("Maximum feedrate of the E axis");
1343 def->sidetext = L("mm/s");
1344 def->min = 0;
1345 def->mode = comAdvanced;
1346 def->set_default_value(new ConfigOptionFloats(axis.max_feedrate));
1347 // Add the machine acceleration limits for XYZE axes (M201)
1348 def = this->add("machine_max_acceleration_" + axis.name, coFloats);
1349 def->full_label = (boost::format("Maximum acceleration %1%") % axis_upper).str();
1350 (void)L("Maximum acceleration X");
1351 (void)L("Maximum acceleration Y");
1352 (void)L("Maximum acceleration Z");
1353 (void)L("Maximum acceleration E");
1354 def->category = L("Machine limits");
1355 def->tooltip = (boost::format("Maximum acceleration of the %1% axis") % axis_upper).str();
1356 (void)L("Maximum acceleration of the X axis");
1357 (void)L("Maximum acceleration of the Y axis");
1358 (void)L("Maximum acceleration of the Z axis");
1359 (void)L("Maximum acceleration of the E axis");
1360 def->sidetext = L("mm/s²");
1361 def->min = 0;
1362 def->mode = comAdvanced;
1363 def->set_default_value(new ConfigOptionFloats(axis.max_acceleration));
1364 // Add the machine jerk limits for XYZE axes (M205)
1365 def = this->add("machine_max_jerk_" + axis.name, coFloats);
1366 def->full_label = (boost::format("Maximum jerk %1%") % axis_upper).str();
1367 (void)L("Maximum jerk X");
1368 (void)L("Maximum jerk Y");
1369 (void)L("Maximum jerk Z");
1370 (void)L("Maximum jerk E");
1371 def->category = L("Machine limits");
1372 def->tooltip = (boost::format("Maximum jerk of the %1% axis") % axis_upper).str();
1373 (void)L("Maximum jerk of the X axis");
1374 (void)L("Maximum jerk of the Y axis");
1375 (void)L("Maximum jerk of the Z axis");
1376 (void)L("Maximum jerk of the E axis");
1377 def->sidetext = L("mm/s");
1378 def->min = 0;
1379 def->mode = comAdvanced;
1380 def->set_default_value(new ConfigOptionFloats(axis.max_jerk));
1381 }
1382 }
1383
1384 // M205 S... [mm/sec]
1385 def = this->add("machine_min_extruding_rate", coFloats);
1386 def->full_label = L("Minimum feedrate when extruding");
1387 def->category = L("Machine limits");
1388 def->tooltip = L("Minimum feedrate when extruding (M205 S)");
1389 def->sidetext = L("mm/s");
1390 def->min = 0;
1391 def->mode = comAdvanced;
1392 def->set_default_value(new ConfigOptionFloats{ 0., 0. });
1393
1394 // M205 T... [mm/sec]
1395 def = this->add("machine_min_travel_rate", coFloats);
1396 def->full_label = L("Minimum travel feedrate");
1397 def->category = L("Machine limits");
1398 def->tooltip = L("Minimum travel feedrate (M205 T)");
1399 def->sidetext = L("mm/s");
1400 def->min = 0;
1401 def->mode = comAdvanced;
1402 def->set_default_value(new ConfigOptionFloats{ 0., 0. });
1403
1404 // M204 S... [mm/sec^2]
1405 def = this->add("machine_max_acceleration_extruding", coFloats);
1406 def->full_label = L("Maximum acceleration when extruding");
1407 def->category = L("Machine limits");
1408 def->tooltip = L("Maximum acceleration when extruding (M204 S)");
1409 def->sidetext = L("mm/s²");
1410 def->min = 0;
1411 def->mode = comAdvanced;
1412 def->set_default_value(new ConfigOptionFloats{ 1500., 1250. });
1413
1414 // M204 T... [mm/sec^2]
1415 def = this->add("machine_max_acceleration_retracting", coFloats);
1416 def->full_label = L("Maximum acceleration when retracting");
1417 def->category = L("Machine limits");
1418 def->tooltip = L("Maximum acceleration when retracting (M204 T)");
1419 def->sidetext = L("mm/s²");
1420 def->min = 0;
1421 def->mode = comAdvanced;
1422 def->set_default_value(new ConfigOptionFloats{ 1500., 1250. });
1423
1424 def = this->add("max_fan_speed", coInts);
1425 def->label = L("Max");
1426 def->tooltip = L("This setting represents the maximum speed of your fan.");
1427 def->sidetext = L("%");
1428 def->min = 0;
1429 def->max = 100;
1430 def->mode = comExpert;
1431 def->set_default_value(new ConfigOptionInts { 100 });
1432
1433 def = this->add("max_layer_height", coFloats);
1434 def->label = L("Max");
1435 def->tooltip = L("This is the highest printable layer height for this extruder, used to cap "
1436 "the variable layer height and support layer height. Maximum recommended layer height "
1437 "is 75% of the extrusion width to achieve reasonable inter-layer adhesion. "
1438 "If set to 0, layer height is limited to 75% of the nozzle diameter.");
1439 def->sidetext = L("mm");
1440 def->min = 0;
1441 def->mode = comAdvanced;
1442 def->set_default_value(new ConfigOptionFloats { 0. });
1443
1444 def = this->add("max_print_speed", coFloat);
1445 def->label = L("Max print speed");
1446 def->tooltip = L("When setting other speed settings to 0 Slic3r will autocalculate the optimal speed "
1447 "in order to keep constant extruder pressure. This experimental setting is used "
1448 "to set the highest print speed you want to allow.");
1449 def->sidetext = L("mm/s");
1450 def->min = 1;
1451 def->mode = comExpert;
1452 def->set_default_value(new ConfigOptionFloat(80));
1453
1454 def = this->add("max_volumetric_speed", coFloat);
1455 def->label = L("Max volumetric speed");
1456 def->tooltip = L("This experimental setting is used to set the maximum volumetric speed your "
1457 "extruder supports.");
1458 def->sidetext = L("mm³/s");
1459 def->min = 0;
1460 def->mode = comExpert;
1461 def->set_default_value(new ConfigOptionFloat(0));
1462
1463 #ifdef HAS_PRESSURE_EQUALIZER
1464 def = this->add("max_volumetric_extrusion_rate_slope_positive", coFloat);
1465 def->label = L("Max volumetric slope positive");
1466 def->tooltip = L("This experimental setting is used to limit the speed of change in extrusion rate. "
1467 "A value of 1.8 mm³/s² ensures, that a change from the extrusion rate "
1468 "of 1.8 mm³/s (0.45mm extrusion width, 0.2mm extrusion height, feedrate 20 mm/s) "
1469 "to 5.4 mm³/s (feedrate 60 mm/s) will take at least 2 seconds.");
1470 def->sidetext = L("mm³/s²");
1471 def->min = 0;
1472 def->mode = comExpert;
1473 def->set_default_value(new ConfigOptionFloat(0));
1474
1475 def = this->add("max_volumetric_extrusion_rate_slope_negative", coFloat);
1476 def->label = L("Max volumetric slope negative");
1477 def->tooltip = L("This experimental setting is used to limit the speed of change in extrusion rate. "
1478 "A value of 1.8 mm³/s² ensures, that a change from the extrusion rate "
1479 "of 1.8 mm³/s (0.45mm extrusion width, 0.2mm extrusion height, feedrate 20 mm/s) "
1480 "to 5.4 mm³/s (feedrate 60 mm/s) will take at least 2 seconds.");
1481 def->sidetext = L("mm³/s²");
1482 def->min = 0;
1483 def->mode = comExpert;
1484 def->set_default_value(new ConfigOptionFloat(0));
1485 #endif /* HAS_PRESSURE_EQUALIZER */
1486
1487 def = this->add("min_fan_speed", coInts);
1488 def->label = L("Min");
1489 def->tooltip = L("This setting represents the minimum PWM your fan needs to work.");
1490 def->sidetext = L("%");
1491 def->min = 0;
1492 def->max = 100;
1493 def->mode = comExpert;
1494 def->set_default_value(new ConfigOptionInts { 35 });
1495
1496 def = this->add("min_layer_height", coFloats);
1497 def->label = L("Min");
1498 def->tooltip = L("This is the lowest printable layer height for this extruder and limits "
1499 "the resolution for variable layer height. Typical values are between 0.05 mm and 0.1 mm.");
1500 def->sidetext = L("mm");
1501 def->min = 0;
1502 def->mode = comAdvanced;
1503 def->set_default_value(new ConfigOptionFloats { 0.07 });
1504
1505 def = this->add("min_print_speed", coFloats);
1506 def->label = L("Min print speed");
1507 def->tooltip = L("Slic3r will not scale speed down below this speed.");
1508 def->sidetext = L("mm/s");
1509 def->min = 0;
1510 def->mode = comExpert;
1511 def->set_default_value(new ConfigOptionFloats { 10. });
1512
1513 def = this->add("min_skirt_length", coFloat);
1514 def->label = L("Minimal filament extrusion length");
1515 def->tooltip = L("Generate no less than the number of skirt loops required to consume "
1516 "the specified amount of filament on the bottom layer. For multi-extruder machines, "
1517 "this minimum applies to each extruder.");
1518 def->sidetext = L("mm");
1519 def->min = 0;
1520 def->mode = comExpert;
1521 def->set_default_value(new ConfigOptionFloat(0));
1522
1523 def = this->add("notes", coString);
1524 def->label = L("Configuration notes");
1525 def->tooltip = L("You can put here your personal notes. This text will be added to the G-code "
1526 "header comments.");
1527 def->multiline = true;
1528 def->full_width = true;
1529 def->height = 13;
1530 def->mode = comAdvanced;
1531 def->set_default_value(new ConfigOptionString(""));
1532
1533 def = this->add("nozzle_diameter", coFloats);
1534 def->label = L("Nozzle diameter");
1535 def->tooltip = L("This is the diameter of your extruder nozzle (for example: 0.5, 0.35 etc.)");
1536 def->sidetext = L("mm");
1537 def->set_default_value(new ConfigOptionFloats { 0.4 });
1538
1539 def = this->add("host_type", coEnum);
1540 def->label = L("Host Type");
1541 def->tooltip = L("Slic3r can upload G-code files to a printer host. This field must contain "
1542 "the kind of the host.");
1543 def->enum_keys_map = &ConfigOptionEnum<PrintHostType>::get_enum_values();
1544 def->enum_values.push_back("prusalink");
1545 def->enum_values.push_back("octoprint");
1546 def->enum_values.push_back("duet");
1547 def->enum_values.push_back("flashair");
1548 def->enum_values.push_back("astrobox");
1549 def->enum_values.push_back("repetier");
1550 def->enum_labels.push_back("PrusaLink");
1551 def->enum_labels.push_back("OctoPrint");
1552 def->enum_labels.push_back("Duet");
1553 def->enum_labels.push_back("FlashAir");
1554 def->enum_labels.push_back("AstroBox");
1555 def->enum_labels.push_back("Repetier");
1556 def->mode = comAdvanced;
1557 def->set_default_value(new ConfigOptionEnum<PrintHostType>(htOctoPrint));
1558
1559 def = this->add("only_retract_when_crossing_perimeters", coBool);
1560 def->label = L("Only retract when crossing perimeters");
1561 def->tooltip = L("Disables retraction when the travel path does not exceed the upper layer's perimeters "
1562 "(and thus any ooze will be probably invisible).");
1563 def->mode = comExpert;
1564 def->set_default_value(new ConfigOptionBool(true));
1565
1566 def = this->add("ooze_prevention", coBool);
1567 def->label = L("Enable");
1568 def->tooltip = L("This option will drop the temperature of the inactive extruders to prevent oozing. "
1569 "It will enable a tall skirt automatically and move extruders outside such "
1570 "skirt when changing temperatures.");
1571 def->mode = comExpert;
1572 def->set_default_value(new ConfigOptionBool(false));
1573
1574 def = this->add("output_filename_format", coString);
1575 def->label = L("Output filename format");
1576 def->tooltip = L("You can use all configuration options as variables inside this template. "
1577 "For example: [layer_height], [fill_density] etc. You can also use [timestamp], "
1578 "[year], [month], [day], [hour], [minute], [second], [version], [input_filename], "
1579 "[input_filename_base].");
1580 def->full_width = true;
1581 def->mode = comExpert;
1582 def->set_default_value(new ConfigOptionString("[input_filename_base].gcode"));
1583
1584 def = this->add("overhangs", coBool);
1585 def->label = L("Detect bridging perimeters");
1586 def->category = L("Layers and Perimeters");
1587 def->tooltip = L("Experimental option to adjust flow for overhangs (bridge flow will be used), "
1588 "to apply bridge speed to them and enable fan.");
1589 def->mode = comAdvanced;
1590 def->set_default_value(new ConfigOptionBool(true));
1591
1592 def = this->add("parking_pos_retraction", coFloat);
1593 def->label = L("Filament parking position");
1594 def->tooltip = L("Distance of the extruder tip from the position where the filament is parked "
1595 "when unloaded. This should match the value in printer firmware.");
1596 def->sidetext = L("mm");
1597 def->min = 0;
1598 def->mode = comAdvanced;
1599 def->set_default_value(new ConfigOptionFloat(92.f));
1600
1601 def = this->add("extra_loading_move", coFloat);
1602 def->label = L("Extra loading distance");
1603 def->tooltip = L("When set to zero, the distance the filament is moved from parking position during load "
1604 "is exactly the same as it was moved back during unload. When positive, it is loaded further, "
1605 " if negative, the loading move is shorter than unloading.");
1606 def->sidetext = L("mm");
1607 def->mode = comAdvanced;
1608 def->set_default_value(new ConfigOptionFloat(-2.f));
1609
1610 def = this->add("perimeter_acceleration", coFloat);
1611 def->label = L("Perimeters");
1612 def->tooltip = L("This is the acceleration your printer will use for perimeters. "
1613 "Set zero to disable acceleration control for perimeters.");
1614 def->sidetext = L("mm/s²");
1615 def->mode = comExpert;
1616 def->set_default_value(new ConfigOptionFloat(0));
1617
1618 def = this->add("perimeter_extruder", coInt);
1619 def->label = L("Perimeter extruder");
1620 def->category = L("Extruders");
1621 def->tooltip = L("The extruder to use when printing perimeters and brim. First extruder is 1.");
1622 def->aliases = { "perimeters_extruder" };
1623 def->min = 1;
1624 def->mode = comAdvanced;
1625 def->set_default_value(new ConfigOptionInt(1));
1626
1627 def = this->add("perimeter_extrusion_width", coFloatOrPercent);
1628 def->label = L("Perimeters");
1629 def->category = L("Extrusion Width");
1630 def->tooltip = L("Set this to a non-zero value to set a manual extrusion width for perimeters. "
1631 "You may want to use thinner extrudates to get more accurate surfaces. "
1632 "If left zero, default extrusion width will be used if set, otherwise 1.125 x nozzle diameter will be used. "
1633 "If expressed as percentage (for example 200%) it will be computed over layer height.");
1634 def->sidetext = L("mm or %");
1635 def->aliases = { "perimeters_extrusion_width" };
1636 def->min = 0;
1637 def->mode = comAdvanced;
1638 def->set_default_value(new ConfigOptionFloatOrPercent(0, false));
1639
1640 def = this->add("perimeter_speed", coFloat);
1641 def->label = L("Perimeters");
1642 def->category = L("Speed");
1643 def->tooltip = L("Speed for perimeters (contours, aka vertical shells). Set to zero for auto.");
1644 def->sidetext = L("mm/s");
1645 def->aliases = { "perimeter_feed_rate" };
1646 def->min = 0;
1647 def->mode = comAdvanced;
1648 def->set_default_value(new ConfigOptionFloat(60));
1649
1650 def = this->add("perimeters", coInt);
1651 def->label = L("Perimeters");
1652 def->category = L("Layers and Perimeters");
1653 def->tooltip = L("This option sets the number of perimeters to generate for each layer. "
1654 "Note that Slic3r may increase this number automatically when it detects "
1655 "sloping surfaces which benefit from a higher number of perimeters "
1656 "if the Extra Perimeters option is enabled.");
1657 def->sidetext = L("(minimum)");
1658 def->aliases = { "perimeter_offsets" };
1659 def->min = 0;
1660 def->max = 10000;
1661 def->set_default_value(new ConfigOptionInt(3));
1662
1663 def = this->add("post_process", coStrings);
1664 def->label = L("Post-processing scripts");
1665 def->tooltip = L("If you want to process the output G-code through custom scripts, "
1666 "just list their absolute paths here. Separate multiple scripts with a semicolon. "
1667 "Scripts will be passed the absolute path to the G-code file as the first argument, "
1668 "and they can access the Slic3r config settings by reading environment variables.");
1669 def->gui_flags = "serialized";
1670 def->multiline = true;
1671 def->full_width = true;
1672 def->height = 6;
1673 def->mode = comExpert;
1674 def->set_default_value(new ConfigOptionStrings());
1675
1676 def = this->add("printer_model", coString);
1677 def->label = L("Printer type");
1678 def->tooltip = L("Type of the printer.");
1679 def->set_default_value(new ConfigOptionString());
1680 def->cli = ConfigOptionDef::nocli;
1681
1682 def = this->add("printer_notes", coString);
1683 def->label = L("Printer notes");
1684 def->tooltip = L("You can put your notes regarding the printer here.");
1685 def->multiline = true;
1686 def->full_width = true;
1687 def->height = 13;
1688 def->mode = comAdvanced;
1689 def->set_default_value(new ConfigOptionString(""));
1690
1691 def = this->add("printer_vendor", coString);
1692 def->label = L("Printer vendor");
1693 def->tooltip = L("Name of the printer vendor.");
1694 def->set_default_value(new ConfigOptionString());
1695 def->cli = ConfigOptionDef::nocli;
1696
1697 def = this->add("printer_variant", coString);
1698 def->label = L("Printer variant");
1699 def->tooltip = L("Name of the printer variant. For example, the printer variants may be differentiated by a nozzle diameter.");
1700 def->set_default_value(new ConfigOptionString());
1701 def->cli = ConfigOptionDef::nocli;
1702
1703 def = this->add("print_settings_id", coString);
1704 def->set_default_value(new ConfigOptionString(""));
1705 def->cli = ConfigOptionDef::nocli;
1706
1707 def = this->add("printer_settings_id", coString);
1708 def->set_default_value(new ConfigOptionString(""));
1709 def->cli = ConfigOptionDef::nocli;
1710
1711 def = this->add("physical_printer_settings_id", coString);
1712 def->set_default_value(new ConfigOptionString(""));
1713 def->cli = ConfigOptionDef::nocli;
1714
1715 def = this->add("raft_layers", coInt);
1716 def->label = L("Raft layers");
1717 def->category = L("Support material");
1718 def->tooltip = L("The object will be raised by this number of layers, and support material "
1719 "will be generated under it.");
1720 def->sidetext = L("layers");
1721 def->min = 0;
1722 def->mode = comAdvanced;
1723 def->set_default_value(new ConfigOptionInt(0));
1724
1725 def = this->add("resolution", coFloat);
1726 def->label = L("Resolution");
1727 def->tooltip = L("Minimum detail resolution, used to simplify the input file for speeding up "
1728 "the slicing job and reducing memory usage. High-resolution models often carry "
1729 "more detail than printers can render. Set to zero to disable any simplification "
1730 "and use full resolution from input.");
1731 def->sidetext = L("mm");
1732 def->min = 0;
1733 def->mode = comExpert;
1734 def->set_default_value(new ConfigOptionFloat(0));
1735
1736 def = this->add("retract_before_travel", coFloats);
1737 def->label = L("Minimum travel after retraction");
1738 def->tooltip = L("Retraction is not triggered when travel moves are shorter than this length.");
1739 def->sidetext = L("mm");
1740 def->mode = comAdvanced;
1741 def->set_default_value(new ConfigOptionFloats { 2. });
1742
1743 def = this->add("retract_before_wipe", coPercents);
1744 def->label = L("Retract amount before wipe");
1745 def->tooltip = L("With bowden extruders, it may be wise to do some amount of quick retract "
1746 "before doing the wipe movement.");
1747 def->sidetext = L("%");
1748 def->mode = comAdvanced;
1749 def->set_default_value(new ConfigOptionPercents { 0. });
1750
1751 def = this->add("retract_layer_change", coBools);
1752 def->label = L("Retract on layer change");
1753 def->tooltip = L("This flag enforces a retraction whenever a Z move is done.");
1754 def->mode = comAdvanced;
1755 def->set_default_value(new ConfigOptionBools { false });
1756
1757 def = this->add("retract_length", coFloats);
1758 def->label = L("Length");
1759 def->full_label = L("Retraction Length");
1760 def->tooltip = L("When retraction is triggered, filament is pulled back by the specified amount "
1761 "(the length is measured on raw filament, before it enters the extruder).");
1762 def->sidetext = L("mm (zero to disable)");
1763 def->set_default_value(new ConfigOptionFloats { 2. });
1764
1765 def = this->add("retract_length_toolchange", coFloats);
1766 def->label = L("Length");
1767 def->full_label = L("Retraction Length (Toolchange)");
1768 def->tooltip = L("When retraction is triggered before changing tool, filament is pulled back "
1769 "by the specified amount (the length is measured on raw filament, before it enters "
1770 "the extruder).");
1771 def->sidetext = L("mm (zero to disable)");
1772 def->mode = comExpert;
1773 def->set_default_value(new ConfigOptionFloats { 10. });
1774
1775 def = this->add("retract_lift", coFloats);
1776 def->label = L("Lift Z");
1777 def->tooltip = L("If you set this to a positive value, Z is quickly raised every time a retraction "
1778 "is triggered. When using multiple extruders, only the setting for the first extruder "
1779 "will be considered.");
1780 def->sidetext = L("mm");
1781 def->set_default_value(new ConfigOptionFloats { 0. });
1782
1783 def = this->add("retract_lift_above", coFloats);
1784 def->label = L("Above Z");
1785 def->full_label = L("Only lift Z above");
1786 def->tooltip = L("If you set this to a positive value, Z lift will only take place above the specified "
1787 "absolute Z. You can tune this setting for skipping lift on the first layers.");
1788 def->sidetext = L("mm");
1789 def->mode = comAdvanced;
1790 def->set_default_value(new ConfigOptionFloats { 0. });
1791
1792 def = this->add("retract_lift_below", coFloats);
1793 def->label = L("Below Z");
1794 def->full_label = L("Only lift Z below");
1795 def->tooltip = L("If you set this to a positive value, Z lift will only take place below "
1796 "the specified absolute Z. You can tune this setting for limiting lift "
1797 "to the first layers.");
1798 def->sidetext = L("mm");
1799 def->mode = comAdvanced;
1800 def->set_default_value(new ConfigOptionFloats { 0. });
1801
1802 def = this->add("retract_restart_extra", coFloats);
1803 def->label = L("Extra length on restart");
1804 def->tooltip = L("When the retraction is compensated after the travel move, the extruder will push "
1805 "this additional amount of filament. This setting is rarely needed.");
1806 def->sidetext = L("mm");
1807 def->mode = comAdvanced;
1808 def->set_default_value(new ConfigOptionFloats { 0. });
1809
1810 def = this->add("retract_restart_extra_toolchange", coFloats);
1811 def->label = L("Extra length on restart");
1812 def->tooltip = L("When the retraction is compensated after changing tool, the extruder will push "
1813 "this additional amount of filament.");
1814 def->sidetext = L("mm");
1815 def->mode = comExpert;
1816 def->set_default_value(new ConfigOptionFloats { 0. });
1817
1818 def = this->add("retract_speed", coFloats);
1819 def->label = L("Retraction Speed");
1820 def->full_label = L("Retraction Speed");
1821 def->tooltip = L("The speed for retractions (it only applies to the extruder motor).");
1822 def->sidetext = L("mm/s");
1823 def->mode = comAdvanced;
1824 def->set_default_value(new ConfigOptionFloats { 40. });
1825
1826 def = this->add("deretract_speed", coFloats);
1827 def->label = L("Deretraction Speed");
1828 def->full_label = L("Deretraction Speed");
1829 def->tooltip = L("The speed for loading of a filament into extruder after retraction "
1830 "(it only applies to the extruder motor). If left to zero, the retraction speed is used.");
1831 def->sidetext = L("mm/s");
1832 def->mode = comAdvanced;
1833 def->set_default_value(new ConfigOptionFloats { 0. });
1834
1835 def = this->add("seam_position", coEnum);
1836 def->label = L("Seam position");
1837 def->category = L("Layers and Perimeters");
1838 def->tooltip = L("Position of perimeters starting points.");
1839 def->enum_keys_map = &ConfigOptionEnum<SeamPosition>::get_enum_values();
1840 def->enum_values.push_back("random");
1841 def->enum_values.push_back("nearest");
1842 def->enum_values.push_back("aligned");
1843 def->enum_values.push_back("rear");
1844 def->enum_labels.push_back(L("Random"));
1845 def->enum_labels.push_back(L("Nearest"));
1846 def->enum_labels.push_back(L("Aligned"));
1847 def->enum_labels.push_back(L("Rear"));
1848 def->mode = comSimple;
1849 def->set_default_value(new ConfigOptionEnum<SeamPosition>(spAligned));
1850
1851 #if 0
1852 def = this->add("seam_preferred_direction", coFloat);
1853 // def->gui_type = "slider";
1854 def->label = L("Direction");
1855 def->sidetext = L("°");
1856 def->full_label = L("Preferred direction of the seam");
1857 def->tooltip = L("Seam preferred direction");
1858 def->min = 0;
1859 def->max = 360;
1860 def->set_default_value(new ConfigOptionFloat(0));
1861
1862 def = this->add("seam_preferred_direction_jitter", coFloat);
1863 // def->gui_type = "slider";
1864 def->label = L("Jitter");
1865 def->sidetext = L("°");
1866 def->full_label = L("Seam preferred direction jitter");
1867 def->tooltip = L("Preferred direction of the seam - jitter");
1868 def->min = 0;
1869 def->max = 360;
1870 def->set_default_value(new ConfigOptionFloat(30));
1871 #endif
1872
1873 def = this->add("skirt_distance", coFloat);
1874 def->label = L("Distance from object");
1875 def->tooltip = L("Distance between skirt and object(s). Set this to zero to attach the skirt "
1876 "to the object(s) and get a brim for better adhesion.");
1877 def->sidetext = L("mm");
1878 def->min = 0;
1879 def->set_default_value(new ConfigOptionFloat(6));
1880
1881 def = this->add("skirt_height", coInt);
1882 def->label = L("Skirt height");
1883 def->tooltip = L("Height of skirt expressed in layers. Set this to a tall value to use skirt "
1884 "as a shield against drafts.");
1885 def->sidetext = L("layers");
1886 def->mode = comAdvanced;
1887 def->set_default_value(new ConfigOptionInt(1));
1888
1889 def = this->add("draft_shield", coBool);
1890 def->label = L("Draft shield");
1891 def->tooltip = L("If enabled, the skirt will be as tall as a highest printed object. "
1892 "This is useful to protect an ABS or ASA print from warping and detaching from print bed due to wind draft.");
1893 def->mode = comAdvanced;
1894 def->set_default_value(new ConfigOptionBool(false));
1895
1896 def = this->add("skirts", coInt);
1897 def->label = L("Loops (minimum)");
1898 def->full_label = L("Skirt Loops");
1899 def->tooltip = L("Number of loops for the skirt. If the Minimum Extrusion Length option is set, "
1900 "the number of loops might be greater than the one configured here. Set this to zero "
1901 "to disable skirt completely.");
1902 def->min = 0;
1903 def->mode = comAdvanced;
1904 def->set_default_value(new ConfigOptionInt(1));
1905
1906 def = this->add("slowdown_below_layer_time", coInts);
1907 def->label = L("Slow down if layer print time is below");
1908 def->tooltip = L("If layer print time is estimated below this number of seconds, print moves "
1909 "speed will be scaled down to extend duration to this value.");
1910 def->sidetext = L("approximate seconds");
1911 def->min = 0;
1912 def->max = 1000;
1913 def->mode = comExpert;
1914 def->set_default_value(new ConfigOptionInts { 5 });
1915
1916 def = this->add("small_perimeter_speed", coFloatOrPercent);
1917 def->label = L("Small perimeters");
1918 def->category = L("Speed");
1919 def->tooltip = L("This separate setting will affect the speed of perimeters having radius <= 6.5mm "
1920 "(usually holes). If expressed as percentage (for example: 80%) it will be calculated "
1921 "on the perimeters speed setting above. Set to zero for auto.");
1922 def->sidetext = L("mm/s or %");
1923 def->ratio_over = "perimeter_speed";
1924 def->min = 0;
1925 def->mode = comAdvanced;
1926 def->set_default_value(new ConfigOptionFloatOrPercent(15, false));
1927
1928 def = this->add("solid_infill_below_area", coFloat);
1929 def->label = L("Solid infill threshold area");
1930 def->category = L("Infill");
1931 def->tooltip = L("Force solid infill for regions having a smaller area than the specified threshold.");
1932 def->sidetext = L("mm²");
1933 def->min = 0;
1934 def->mode = comExpert;
1935 def->set_default_value(new ConfigOptionFloat(70));
1936
1937 def = this->add("solid_infill_extruder", coInt);
1938 def->label = L("Solid infill extruder");
1939 def->category = L("Extruders");
1940 def->tooltip = L("The extruder to use when printing solid infill.");
1941 def->min = 1;
1942 def->mode = comAdvanced;
1943 def->set_default_value(new ConfigOptionInt(1));
1944
1945 def = this->add("solid_infill_every_layers", coInt);
1946 def->label = L("Solid infill every");
1947 def->category = L("Infill");
1948 def->tooltip = L("This feature allows to force a solid layer every given number of layers. "
1949 "Zero to disable. You can set this to any value (for example 9999); "
1950 "Slic3r will automatically choose the maximum possible number of layers "
1951 "to combine according to nozzle diameter and layer height.");
1952 def->sidetext = L("layers");
1953 def->min = 0;
1954 def->mode = comExpert;
1955 def->set_default_value(new ConfigOptionInt(0));
1956
1957 def = this->add("solid_infill_extrusion_width", coFloatOrPercent);
1958 def->label = L("Solid infill");
1959 def->category = L("Extrusion Width");
1960 def->tooltip = L("Set this to a non-zero value to set a manual extrusion width for infill for solid surfaces. "
1961 "If left zero, default extrusion width will be used if set, otherwise 1.125 x nozzle diameter will be used. "
1962 "If expressed as percentage (for example 90%) it will be computed over layer height.");
1963 def->sidetext = L("mm or %");
1964 def->min = 0;
1965 def->mode = comAdvanced;
1966 def->set_default_value(new ConfigOptionFloatOrPercent(0, false));
1967
1968 def = this->add("solid_infill_speed", coFloatOrPercent);
1969 def->label = L("Solid infill");
1970 def->category = L("Speed");
1971 def->tooltip = L("Speed for printing solid regions (top/bottom/internal horizontal shells). "
1972 "This can be expressed as a percentage (for example: 80%) over the default "
1973 "infill speed above. Set to zero for auto.");
1974 def->sidetext = L("mm/s or %");
1975 def->ratio_over = "infill_speed";
1976 def->aliases = { "solid_infill_feed_rate" };
1977 def->min = 0;
1978 def->mode = comAdvanced;
1979 def->set_default_value(new ConfigOptionFloatOrPercent(20, false));
1980
1981 def = this->add("solid_layers", coInt);
1982 def->label = L("Solid layers");
1983 def->tooltip = L("Number of solid layers to generate on top and bottom surfaces.");
1984 def->shortcut.push_back("top_solid_layers");
1985 def->shortcut.push_back("bottom_solid_layers");
1986 def->min = 0;
1987
1988 def = this->add("solid_min_thickness", coFloat);
1989 def->label = L("Minimum thickness of a top / bottom shell");
1990 def->tooltip = L("Minimum thickness of a top / bottom shell");
1991 def->shortcut.push_back("top_solid_min_thickness");
1992 def->shortcut.push_back("bottom_solid_min_thickness");
1993 def->min = 0;
1994
1995 def = this->add("spiral_vase", coBool);
1996 def->label = L("Spiral vase");
1997 def->tooltip = L("This feature will raise Z gradually while printing a single-walled object "
1998 "in order to remove any visible seam. This option requires a single perimeter, "
1999 "no infill, no top solid layers and no support material. You can still set "
2000 "any number of bottom solid layers as well as skirt/brim loops. "
2001 "It won't work when printing more than one single object.");
2002 def->set_default_value(new ConfigOptionBool(false));
2003
2004 def = this->add("standby_temperature_delta", coInt);
2005 def->label = L("Temperature variation");
2006 def->tooltip = L("Temperature difference to be applied when an extruder is not active. "
2007 "Enables a full-height \"sacrificial\" skirt on which the nozzles are periodically wiped.");
2008 def->sidetext = "∆°C";
2009 def->min = -max_temp;
2010 def->max = max_temp;
2011 def->mode = comExpert;
2012 def->set_default_value(new ConfigOptionInt(-5));
2013
2014 def = this->add("start_gcode", coString);
2015 def->label = L("Start G-code");
2016 def->tooltip = L("This start procedure is inserted at the beginning, after bed has reached "
2017 "the target temperature and extruder just started heating, and before extruder "
2018 "has finished heating. If PrusaSlicer detects M104 or M190 in your custom codes, "
2019 "such commands will not be prepended automatically so you're free to customize "
2020 "the order of heating commands and other custom actions. Note that you can use "
2021 "placeholder variables for all PrusaSlicer settings, so you can put "
2022 "a \"M109 S[first_layer_temperature]\" command wherever you want.");
2023 def->multiline = true;
2024 def->full_width = true;
2025 def->height = 12;
2026 def->mode = comExpert;
2027 def->set_default_value(new ConfigOptionString("G28 ; home all axes\nG1 Z5 F5000 ; lift nozzle\n"));
2028
2029 def = this->add("start_filament_gcode", coStrings);
2030 def->label = L("Start G-code");
2031 def->tooltip = L("This start procedure is inserted at the beginning, after any printer start gcode (and "
2032 "after any toolchange to this filament in case of multi-material printers). "
2033 "This is used to override settings for a specific filament. If PrusaSlicer detects "
2034 "M104, M109, M140 or M190 in your custom codes, such commands will "
2035 "not be prepended automatically so you're free to customize the order "
2036 "of heating commands and other custom actions. Note that you can use placeholder variables "
2037 "for all PrusaSlicer settings, so you can put a \"M109 S[first_layer_temperature]\" command "
2038 "wherever you want. If you have multiple extruders, the gcode is processed "
2039 "in extruder order.");
2040 def->multiline = true;
2041 def->full_width = true;
2042 def->height = 12;
2043 def->mode = comExpert;
2044 def->set_default_value(new ConfigOptionStrings { "; Filament gcode\n" });
2045
2046 def = this->add("color_change_gcode", coString);
2047 def->label = L("Color change G-code");
2048 def->tooltip = L("This G-code will be used as a code for the color change");
2049 def->multiline = true;
2050 def->full_width = true;
2051 def->height = 12;
2052 def->mode = comExpert;
2053 def->set_default_value(new ConfigOptionString("M600"));
2054
2055 def = this->add("pause_print_gcode", coString);
2056 def->label = L("Pause Print G-code");
2057 def->tooltip = L("This G-code will be used as a code for the pause print");
2058 def->multiline = true;
2059 def->full_width = true;
2060 def->height = 12;
2061 def->mode = comExpert;
2062 def->set_default_value(new ConfigOptionString("M601"));
2063
2064 def = this->add("template_custom_gcode", coString);
2065 def->label = L("Custom G-code");
2066 def->tooltip = L("This G-code will be used as a custom code");
2067 def->multiline = true;
2068 def->full_width = true;
2069 def->height = 12;
2070 def->mode = comExpert;
2071 def->set_default_value(new ConfigOptionString(""));
2072
2073 def = this->add("single_extruder_multi_material", coBool);
2074 def->label = L("Single Extruder Multi Material");
2075 def->tooltip = L("The printer multiplexes filaments into a single hot end.");
2076 def->mode = comExpert;
2077 def->set_default_value(new ConfigOptionBool(false));
2078
2079 def = this->add("single_extruder_multi_material_priming", coBool);
2080 def->label = L("Prime all printing extruders");
2081 def->tooltip = L("If enabled, all printing extruders will be primed at the front edge of the print bed at the start of the print.");
2082 def->mode = comAdvanced;
2083 def->set_default_value(new ConfigOptionBool(true));
2084
2085 def = this->add("wipe_tower_no_sparse_layers", coBool);
2086 def->label = L("No sparse layers (EXPERIMENTAL)");
2087 def->tooltip = L("If enabled, the wipe tower will not be printed on layers with no toolchanges. "
2088 "On layers with a toolchange, extruder will travel downward to print the wipe tower. "
2089 "User is responsible for ensuring there is no collision with the print.");
2090 def->mode = comAdvanced;
2091 def->set_default_value(new ConfigOptionBool(false));
2092
2093 def = this->add("support_material", coBool);
2094 def->label = L("Generate support material");
2095 def->category = L("Support material");
2096 def->tooltip = L("Enable support material generation.");
2097 def->set_default_value(new ConfigOptionBool(false));
2098
2099 def = this->add("support_material_auto", coBool);
2100 def->label = L("Auto generated supports");
2101 def->category = L("Support material");
2102 def->tooltip = L("If checked, supports will be generated automatically based on the overhang threshold value."\
2103 " If unchecked, supports will be generated inside the \"Support Enforcer\" volumes only.");
2104 def->mode = comSimple;
2105 def->set_default_value(new ConfigOptionBool(true));
2106
2107 def = this->add("support_material_xy_spacing", coFloatOrPercent);
2108 def->label = L("XY separation between an object and its support");
2109 def->category = L("Support material");
2110 def->tooltip = L("XY separation between an object and its support. If expressed as percentage "
2111 "(for example 50%), it will be calculated over external perimeter width.");
2112 def->sidetext = L("mm or %");
2113 def->ratio_over = "external_perimeter_extrusion_width";
2114 def->min = 0;
2115 def->mode = comAdvanced;
2116 // Default is half the external perimeter width.
2117 def->set_default_value(new ConfigOptionFloatOrPercent(50, true));
2118
2119 def = this->add("support_material_angle", coFloat);
2120 def->label = L("Pattern angle");
2121 def->category = L("Support material");
2122 def->tooltip = L("Use this setting to rotate the support material pattern on the horizontal plane.");
2123 def->sidetext = L("°");
2124 def->min = 0;
2125 def->max = 359;
2126 def->mode = comExpert;
2127 def->set_default_value(new ConfigOptionFloat(0));
2128
2129 def = this->add("support_material_buildplate_only", coBool);
2130 def->label = L("Support on build plate only");
2131 def->category = L("Support material");
2132 def->tooltip = L("Only create support if it lies on a build plate. Don't create support on a print.");
2133 def->mode = comSimple;
2134 def->set_default_value(new ConfigOptionBool(false));
2135
2136 def = this->add("support_material_contact_distance", coFloat);
2137 def->gui_type = "f_enum_open";
2138 def->label = L("Contact Z distance");
2139 def->category = L("Support material");
2140 def->tooltip = L("The vertical distance between object and support material interface. "
2141 "Setting this to 0 will also prevent Slic3r from using bridge flow and speed "
2142 "for the first object layer.");
2143 def->sidetext = L("mm");
2144 // def->min = 0;
2145 def->enum_values.push_back("0");
2146 def->enum_values.push_back("0.2");
2147 def->enum_labels.push_back(L("0 (soluble)"));
2148 def->enum_labels.push_back(L("0.2 (detachable)"));
2149 def->mode = comAdvanced;
2150 def->set_default_value(new ConfigOptionFloat(0.2));
2151
2152 def = this->add("support_material_enforce_layers", coInt);
2153 def->label = L("Enforce support for the first");
2154 def->category = L("Support material");
2155 def->tooltip = L("Generate support material for the specified number of layers counting from bottom, "
2156 "regardless of whether normal support material is enabled or not and regardless "
2157 "of any angle threshold. This is useful for getting more adhesion of objects "
2158 "having a very thin or poor footprint on the build plate.");
2159 def->sidetext = L("layers");
2160 def->full_label = L("Enforce support for the first n layers");
2161 def->min = 0;
2162 def->mode = comExpert;
2163 def->set_default_value(new ConfigOptionInt(0));
2164
2165 def = this->add("support_material_extruder", coInt);
2166 def->label = L("Support material/raft/skirt extruder");
2167 def->category = L("Extruders");
2168 def->tooltip = L("The extruder to use when printing support material, raft and skirt "
2169 "(1+, 0 to use the current extruder to minimize tool changes).");
2170 def->min = 0;
2171 def->mode = comAdvanced;
2172 def->set_default_value(new ConfigOptionInt(1));
2173
2174 def = this->add("support_material_extrusion_width", coFloatOrPercent);
2175 def->label = L("Support material");
2176 def->category = L("Extrusion Width");
2177 def->tooltip = L("Set this to a non-zero value to set a manual extrusion width for support material. "
2178 "If left zero, default extrusion width will be used if set, otherwise nozzle diameter will be used. "
2179 "If expressed as percentage (for example 90%) it will be computed over layer height.");
2180 def->sidetext = L("mm or %");
2181 def->min = 0;
2182 def->mode = comAdvanced;
2183 def->set_default_value(new ConfigOptionFloatOrPercent(0, false));
2184
2185 def = this->add("support_material_interface_contact_loops", coBool);
2186 def->label = L("Interface loops");
2187 def->category = L("Support material");
2188 def->tooltip = L("Cover the top contact layer of the supports with loops. Disabled by default.");
2189 def->mode = comExpert;
2190 def->set_default_value(new ConfigOptionBool(false));
2191
2192 def = this->add("support_material_interface_extruder", coInt);
2193 def->label = L("Support material/raft interface extruder");
2194 def->category = L("Extruders");
2195 def->tooltip = L("The extruder to use when printing support material interface "
2196 "(1+, 0 to use the current extruder to minimize tool changes). This affects raft too.");
2197 def->min = 0;
2198 def->mode = comAdvanced;
2199 def->set_default_value(new ConfigOptionInt(1));
2200
2201 def = this->add("support_material_interface_layers", coInt);
2202 def->label = L("Interface layers");
2203 def->category = L("Support material");
2204 def->tooltip = L("Number of interface layers to insert between the object(s) and support material.");
2205 def->sidetext = L("layers");
2206 def->min = 0;
2207 def->mode = comAdvanced;
2208 def->set_default_value(new ConfigOptionInt(3));
2209
2210 def = this->add("support_material_interface_spacing", coFloat);
2211 def->label = L("Interface pattern spacing");
2212 def->category = L("Support material");
2213 def->tooltip = L("Spacing between interface lines. Set zero to get a solid interface.");
2214 def->sidetext = L("mm");
2215 def->min = 0;
2216 def->mode = comAdvanced;
2217 def->set_default_value(new ConfigOptionFloat(0));
2218
2219 def = this->add("support_material_interface_speed", coFloatOrPercent);
2220 def->label = L("Support material interface");
2221 def->category = L("Support material");
2222 def->tooltip = L("Speed for printing support material interface layers. If expressed as percentage "
2223 "(for example 50%) it will be calculated over support material speed.");
2224 def->sidetext = L("mm/s or %");
2225 def->ratio_over = "support_material_speed";
2226 def->min = 0;
2227 def->mode = comAdvanced;
2228 def->set_default_value(new ConfigOptionFloatOrPercent(100, true));
2229
2230 def = this->add("support_material_pattern", coEnum);
2231 def->label = L("Pattern");
2232 def->category = L("Support material");
2233 def->tooltip = L("Pattern used to generate support material.");
2234 def->enum_keys_map = &ConfigOptionEnum<SupportMaterialPattern>::get_enum_values();
2235 def->enum_values.push_back("rectilinear");
2236 def->enum_values.push_back("rectilinear-grid");
2237 def->enum_values.push_back("honeycomb");
2238 def->enum_labels.push_back(L("Rectilinear"));
2239 def->enum_labels.push_back(L("Rectilinear grid"));
2240 def->enum_labels.push_back(L("Honeycomb"));
2241 def->mode = comAdvanced;
2242 def->set_default_value(new ConfigOptionEnum<SupportMaterialPattern>(smpRectilinear));
2243
2244 def = this->add("support_material_spacing", coFloat);
2245 def->label = L("Pattern spacing");
2246 def->category = L("Support material");
2247 def->tooltip = L("Spacing between support material lines.");
2248 def->sidetext = L("mm");
2249 def->min = 0;
2250 def->mode = comAdvanced;
2251 def->set_default_value(new ConfigOptionFloat(2.5));
2252
2253 def = this->add("support_material_speed", coFloat);
2254 def->label = L("Support material");
2255 def->category = L("Support material");
2256 def->tooltip = L("Speed for printing support material.");
2257 def->sidetext = L("mm/s");
2258 def->min = 0;
2259 def->mode = comAdvanced;
2260 def->set_default_value(new ConfigOptionFloat(60));
2261
2262 def = this->add("support_material_synchronize_layers", coBool);
2263 def->label = L("Synchronize with object layers");
2264 def->category = L("Support material");
2265 def->tooltip = L("Synchronize support layers with the object print layers. This is useful "
2266 "with multi-material printers, where the extruder switch is expensive.");
2267 def->mode = comExpert;
2268 def->set_default_value(new ConfigOptionBool(false));
2269
2270 def = this->add("support_material_threshold", coInt);
2271 def->label = L("Overhang threshold");
2272 def->category = L("Support material");
2273 def->tooltip = L("Support material will not be generated for overhangs whose slope angle "
2274 "(90° = vertical) is above the given threshold. In other words, this value "
2275 "represent the most horizontal slope (measured from the horizontal plane) "
2276 "that you can print without support material. Set to zero for automatic detection "
2277 "(recommended).");
2278 def->sidetext = L("°");
2279 def->min = 0;
2280 def->max = 90;
2281 def->mode = comAdvanced;
2282 def->set_default_value(new ConfigOptionInt(0));
2283
2284 def = this->add("support_material_with_sheath", coBool);
2285 def->label = L("With sheath around the support");
2286 def->category = L("Support material");
2287 def->tooltip = L("Add a sheath (a single perimeter line) around the base support. This makes "
2288 "the support more reliable, but also more difficult to remove.");
2289 def->mode = comExpert;
2290 def->set_default_value(new ConfigOptionBool(true));
2291
2292 def = this->add("temperature", coInts);
2293 def->label = L("Other layers");
2294 def->tooltip = L("Nozzle temperature for layers after the first one. Set this to zero to disable "
2295 "temperature control commands in the output G-code.");
2296 def->sidetext = L("°C");
2297 def->full_label = L("Nozzle temperature");
2298 def->min = 0;
2299 def->max = max_temp;
2300 def->set_default_value(new ConfigOptionInts { 200 });
2301
2302 def = this->add("thin_walls", coBool);
2303 def->label = L("Detect thin walls");
2304 def->category = L("Layers and Perimeters");
2305 def->tooltip = L("Detect single-width walls (parts where two extrusions don't fit and we need "
2306 "to collapse them into a single trace).");
2307 def->mode = comAdvanced;
2308 def->set_default_value(new ConfigOptionBool(true));
2309
2310 def = this->add("threads", coInt);
2311 def->label = L("Threads");
2312 def->tooltip = L("Threads are used to parallelize long-running tasks. Optimal threads number "
2313 "is slightly above the number of available cores/processors.");
2314 def->readonly = true;
2315 def->min = 1;
2316 {
2317 int threads = (unsigned int)boost::thread::hardware_concurrency();
2318 def->set_default_value(new ConfigOptionInt(threads > 0 ? threads : 2));
2319 def->cli = ConfigOptionDef::nocli;
2320 }
2321
2322 def = this->add("toolchange_gcode", coString);
2323 def->label = L("Tool change G-code");
2324 def->tooltip = L("This custom code is inserted before every toolchange. Placeholder variables for all PrusaSlicer settings "
2325 "as well as {previous_extruder} and {next_extruder} can be used. When a tool-changing command "
2326 "which changes to the correct extruder is included (such as T{next_extruder}), PrusaSlicer will emit no other such command. "
2327 "It is therefore possible to script custom behaviour both before and after the toolchange.");
2328 def->multiline = true;
2329 def->full_width = true;
2330 def->height = 5;
2331 def->mode = comExpert;
2332 def->set_default_value(new ConfigOptionString(""));
2333
2334 def = this->add("top_infill_extrusion_width", coFloatOrPercent);
2335 def->label = L("Top solid infill");
2336 def->category = L("Extrusion Width");
2337 def->tooltip = L("Set this to a non-zero value to set a manual extrusion width for infill for top surfaces. "
2338 "You may want to use thinner extrudates to fill all narrow regions and get a smoother finish. "
2339 "If left zero, default extrusion width will be used if set, otherwise nozzle diameter will be used. "
2340 "If expressed as percentage (for example 90%) it will be computed over layer height.");
2341 def->sidetext = L("mm or %");
2342 def->min = 0;
2343 def->mode = comAdvanced;
2344 def->set_default_value(new ConfigOptionFloatOrPercent(0, false));
2345
2346 def = this->add("top_solid_infill_speed", coFloatOrPercent);
2347 def->label = L("Top solid infill");
2348 def->category = L("Speed");
2349 def->tooltip = L("Speed for printing top solid layers (it only applies to the uppermost "
2350 "external layers and not to their internal solid layers). You may want "
2351 "to slow down this to get a nicer surface finish. This can be expressed "
2352 "as a percentage (for example: 80%) over the solid infill speed above. "
2353 "Set to zero for auto.");
2354 def->sidetext = L("mm/s or %");
2355 def->ratio_over = "solid_infill_speed";
2356 def->min = 0;
2357 def->mode = comAdvanced;
2358 def->set_default_value(new ConfigOptionFloatOrPercent(15, false));
2359
2360 def = this->add("top_solid_layers", coInt);
2361 //TRN To be shown in Print Settings "Top solid layers"
2362 def->label = L("Top");
2363 def->category = L("Layers and Perimeters");
2364 def->tooltip = L("Number of solid layers to generate on top surfaces.");
2365 def->full_label = L("Top solid layers");
2366 def->min = 0;
2367 def->set_default_value(new ConfigOptionInt(3));
2368
2369 def = this->add("top_solid_min_thickness", coFloat);
2370 //TRN To be shown in Print Settings "Top solid layers"
2371 def->label = L("Top");
2372 def->category = L("Layers and Perimeters");
2373 def->tooltip = L("The number of top solid layers is increased above top_solid_layers if necessary to satisfy "
2374 "minimum thickness of top shell."
2375 " This is useful to prevent pillowing effect when printing with variable layer height.");
2376 def->full_label = L("Minimum top shell thickness");
2377 def->sidetext = L("mm");
2378 def->min = 0;
2379 def->set_default_value(new ConfigOptionFloat(0.));
2380
2381 def = this->add("travel_speed", coFloat);
2382 def->label = L("Travel");
2383 def->tooltip = L("Speed for travel moves (jumps between distant extrusion points).");
2384 def->sidetext = L("mm/s");
2385 def->aliases = { "travel_feed_rate" };
2386 def->min = 1;
2387 def->mode = comAdvanced;
2388 def->set_default_value(new ConfigOptionFloat(130));
2389
2390 def = this->add("use_firmware_retraction", coBool);
2391 def->label = L("Use firmware retraction");
2392 def->tooltip = L("This experimental setting uses G10 and G11 commands to have the firmware "
2393 "handle the retraction. This is only supported in recent Marlin.");
2394 def->mode = comExpert;
2395 def->set_default_value(new ConfigOptionBool(false));
2396
2397 def = this->add("use_relative_e_distances", coBool);
2398 def->label = L("Use relative E distances");
2399 def->tooltip = L("If your firmware requires relative E values, check this, "
2400 "otherwise leave it unchecked. Most firmwares use absolute values.");
2401 def->mode = comExpert;
2402 def->set_default_value(new ConfigOptionBool(false));
2403
2404 def = this->add("use_volumetric_e", coBool);
2405 def->label = L("Use volumetric E");
2406 def->tooltip = L("This experimental setting uses outputs the E values in cubic millimeters "
2407 "instead of linear millimeters. If your firmware doesn't already know "
2408 "filament diameter(s), you can put commands like 'M200 D[filament_diameter_0] T0' "
2409 "in your start G-code in order to turn volumetric mode on and use the filament "
2410 "diameter associated to the filament selected in Slic3r. This is only supported "
2411 "in recent Marlin.");
2412 def->mode = comExpert;
2413 def->set_default_value(new ConfigOptionBool(false));
2414
2415 def = this->add("variable_layer_height", coBool);
2416 def->label = L("Enable variable layer height feature");
2417 def->tooltip = L("Some printers or printer setups may have difficulties printing "
2418 "with a variable layer height. Enabled by default.");
2419 def->mode = comExpert;
2420 def->set_default_value(new ConfigOptionBool(true));
2421
2422 def = this->add("wipe", coBools);
2423 def->label = L("Wipe while retracting");
2424 def->tooltip = L("This flag will move the nozzle while retracting to minimize the possible blob "
2425 "on leaky extruders.");
2426 def->mode = comAdvanced;
2427 def->set_default_value(new ConfigOptionBools { false });
2428
2429 def = this->add("wipe_tower", coBool);
2430 def->label = L("Enable");
2431 def->tooltip = L("Multi material printers may need to prime or purge extruders on tool changes. "
2432 "Extrude the excess material into the wipe tower.");
2433 def->mode = comAdvanced;
2434 def->set_default_value(new ConfigOptionBool(false));
2435
2436 def = this->add("wiping_volumes_extruders", coFloats);
2437 def->label = L("Purging volumes - load/unload volumes");
2438 def->tooltip = L("This vector saves required volumes to change from/to each tool used on the "
2439 "wipe tower. These values are used to simplify creation of the full purging "
2440 "volumes below.");
2441 def->set_default_value(new ConfigOptionFloats { 70.f, 70.f, 70.f, 70.f, 70.f, 70.f, 70.f, 70.f, 70.f, 70.f });
2442
2443 def = this->add("wiping_volumes_matrix", coFloats);
2444 def->label = L("Purging volumes - matrix");
2445 def->tooltip = L("This matrix describes volumes (in cubic milimetres) required to purge the"
2446 " new filament on the wipe tower for any given pair of tools.");
2447 def->set_default_value(new ConfigOptionFloats { 0.f, 140.f, 140.f, 140.f, 140.f,
2448 140.f, 0.f, 140.f, 140.f, 140.f,
2449 140.f, 140.f, 0.f, 140.f, 140.f,
2450 140.f, 140.f, 140.f, 0.f, 140.f,
2451 140.f, 140.f, 140.f, 140.f, 0.f });
2452
2453 def = this->add("wipe_tower_x", coFloat);
2454 def->label = L("Position X");
2455 def->tooltip = L("X coordinate of the left front corner of a wipe tower");
2456 def->sidetext = L("mm");
2457 def->mode = comAdvanced;
2458 def->set_default_value(new ConfigOptionFloat(180.));
2459
2460 def = this->add("wipe_tower_y", coFloat);
2461 def->label = L("Position Y");
2462 def->tooltip = L("Y coordinate of the left front corner of a wipe tower");
2463 def->sidetext = L("mm");
2464 def->mode = comAdvanced;
2465 def->set_default_value(new ConfigOptionFloat(140.));
2466
2467 def = this->add("wipe_tower_width", coFloat);
2468 def->label = L("Width");
2469 def->tooltip = L("Width of a wipe tower");
2470 def->sidetext = L("mm");
2471 def->mode = comAdvanced;
2472 def->set_default_value(new ConfigOptionFloat(60.));
2473
2474 def = this->add("wipe_tower_rotation_angle", coFloat);
2475 def->label = L("Wipe tower rotation angle");
2476 def->tooltip = L("Wipe tower rotation angle with respect to x-axis.");
2477 def->sidetext = L("°");
2478 def->mode = comAdvanced;
2479 def->set_default_value(new ConfigOptionFloat(0.));
2480
2481 def = this->add("wipe_into_infill", coBool);
2482 def->category = L("Wipe options");
2483 def->label = L("Wipe into this object's infill");
2484 def->tooltip = L("Purging after toolchange will done inside this object's infills. "
2485 "This lowers the amount of waste but may result in longer print time "
2486 " due to additional travel moves.");
2487 def->set_default_value(new ConfigOptionBool(false));
2488
2489 def = this->add("wipe_into_objects", coBool);
2490 def->category = L("Wipe options");
2491 def->label = L("Wipe into this object");
2492 def->tooltip = L("Object will be used to purge the nozzle after a toolchange to save material "
2493 "that would otherwise end up in the wipe tower and decrease print time. "
2494 "Colours of the objects will be mixed as a result.");
2495 def->set_default_value(new ConfigOptionBool(false));
2496
2497 def = this->add("wipe_tower_bridging", coFloat);
2498 def->label = L("Maximal bridging distance");
2499 def->tooltip = L("Maximal distance between supports on sparse infill sections.");
2500 def->sidetext = L("mm");
2501 def->mode = comAdvanced;
2502 def->set_default_value(new ConfigOptionFloat(10.));
2503
2504 def = this->add("xy_size_compensation", coFloat);
2505 def->label = L("XY Size Compensation");
2506 def->category = L("Advanced");
2507 def->tooltip = L("The object will be grown/shrunk in the XY plane by the configured value "
2508 "(negative = inwards, positive = outwards). This might be useful "
2509 "for fine-tuning hole sizes.");
2510 def->sidetext = L("mm");
2511 def->mode = comExpert;
2512 def->set_default_value(new ConfigOptionFloat(0));
2513
2514 def = this->add("z_offset", coFloat);
2515 def->label = L("Z offset");
2516 def->tooltip = L("This value will be added (or subtracted) from all the Z coordinates "
2517 "in the output G-code. It is used to compensate for bad Z endstop position: "
2518 "for example, if your endstop zero actually leaves the nozzle 0.3mm far "
2519 "from the print bed, set this to -0.3 (or fix your endstop).");
2520 def->sidetext = L("mm");
2521 def->mode = comAdvanced;
2522 def->set_default_value(new ConfigOptionFloat(0));
2523
2524 // Declare retract values for filament profile, overriding the printer's extruder profile.
2525 for (const char *opt_key : {
2526 // floats
2527 "retract_length", "retract_lift", "retract_lift_above", "retract_lift_below", "retract_speed", "deretract_speed", "retract_restart_extra", "retract_before_travel",
2528 // bools
2529 "retract_layer_change", "wipe",
2530 // percents
2531 "retract_before_wipe"}) {
2532 auto it_opt = options.find(opt_key);
2533 assert(it_opt != options.end());
2534 def = this->add_nullable(std::string("filament_") + opt_key, it_opt->second.type);
2535 def->label = it_opt->second.label;
2536 def->full_label = it_opt->second.full_label;
2537 def->tooltip = it_opt->second.tooltip;
2538 def->sidetext = it_opt->second.sidetext;
2539 def->mode = it_opt->second.mode;
2540 switch (def->type) {
2541 case coFloats : def->set_default_value(new ConfigOptionFloatsNullable (static_cast<const ConfigOptionFloats* >(it_opt->second.default_value.get())->values)); break;
2542 case coPercents : def->set_default_value(new ConfigOptionPercentsNullable(static_cast<const ConfigOptionPercents*>(it_opt->second.default_value.get())->values)); break;
2543 case coBools : def->set_default_value(new ConfigOptionBoolsNullable (static_cast<const ConfigOptionBools* >(it_opt->second.default_value.get())->values)); break;
2544 default: assert(false);
2545 }
2546 }
2547 }
2548
init_extruder_option_keys()2549 void PrintConfigDef::init_extruder_option_keys()
2550 {
2551 // ConfigOptionFloats, ConfigOptionPercents, ConfigOptionBools, ConfigOptionStrings
2552 m_extruder_option_keys = {
2553 "nozzle_diameter", "min_layer_height", "max_layer_height", "extruder_offset",
2554 "retract_length", "retract_lift", "retract_lift_above", "retract_lift_below", "retract_speed", "deretract_speed",
2555 "retract_before_wipe", "retract_restart_extra", "retract_before_travel", "wipe",
2556 "retract_layer_change", "retract_length_toolchange", "retract_restart_extra_toolchange", "extruder_colour",
2557 "default_filament_profile"
2558 };
2559
2560 m_extruder_retract_keys = {
2561 "deretract_speed",
2562 "retract_before_travel",
2563 "retract_before_wipe",
2564 "retract_layer_change",
2565 "retract_length",
2566 "retract_lift",
2567 "retract_lift_above",
2568 "retract_lift_below",
2569 "retract_restart_extra",
2570 "retract_speed",
2571 "wipe"
2572 };
2573 assert(std::is_sorted(m_extruder_retract_keys.begin(), m_extruder_retract_keys.end()));
2574 }
2575
init_sla_params()2576 void PrintConfigDef::init_sla_params()
2577 {
2578 ConfigOptionDef* def;
2579
2580 // SLA Printer settings
2581
2582 def = this->add("display_width", coFloat);
2583 def->label = L("Display width");
2584 def->tooltip = L("Width of the display");
2585 def->min = 1;
2586 def->set_default_value(new ConfigOptionFloat(120.));
2587
2588 def = this->add("display_height", coFloat);
2589 def->label = L("Display height");
2590 def->tooltip = L("Height of the display");
2591 def->min = 1;
2592 def->set_default_value(new ConfigOptionFloat(68.));
2593
2594 def = this->add("display_pixels_x", coInt);
2595 def->full_label = L("Number of pixels in");
2596 def->label = ("X");
2597 def->tooltip = L("Number of pixels in X");
2598 def->min = 100;
2599 def->set_default_value(new ConfigOptionInt(2560));
2600
2601 def = this->add("display_pixels_y", coInt);
2602 def->label = ("Y");
2603 def->tooltip = L("Number of pixels in Y");
2604 def->min = 100;
2605 def->set_default_value(new ConfigOptionInt(1440));
2606
2607 def = this->add("display_mirror_x", coBool);
2608 def->full_label = L("Display horizontal mirroring");
2609 def->label = L("Mirror horizontally");
2610 def->tooltip = L("Enable horizontal mirroring of output images");
2611 def->mode = comExpert;
2612 def->set_default_value(new ConfigOptionBool(true));
2613
2614 def = this->add("display_mirror_y", coBool);
2615 def->full_label = L("Display vertical mirroring");
2616 def->label = L("Mirror vertically");
2617 def->tooltip = L("Enable vertical mirroring of output images");
2618 def->mode = comExpert;
2619 def->set_default_value(new ConfigOptionBool(false));
2620
2621 def = this->add("display_orientation", coEnum);
2622 def->label = L("Display orientation");
2623 def->tooltip = L("Set the actual LCD display orientation inside the SLA printer."
2624 " Portrait mode will flip the meaning of display width and height parameters"
2625 " and the output images will be rotated by 90 degrees.");
2626 def->enum_keys_map = &ConfigOptionEnum<SLADisplayOrientation>::get_enum_values();
2627 def->enum_values.push_back("landscape");
2628 def->enum_values.push_back("portrait");
2629 def->enum_labels.push_back(L("Landscape"));
2630 def->enum_labels.push_back(L("Portrait"));
2631 def->mode = comExpert;
2632 def->set_default_value(new ConfigOptionEnum<SLADisplayOrientation>(sladoPortrait));
2633
2634 def = this->add("fast_tilt_time", coFloat);
2635 def->label = L("Fast");
2636 def->full_label = L("Fast tilt");
2637 def->tooltip = L("Time of the fast tilt");
2638 def->sidetext = L("s");
2639 def->min = 0;
2640 def->mode = comExpert;
2641 def->set_default_value(new ConfigOptionFloat(5.));
2642
2643 def = this->add("slow_tilt_time", coFloat);
2644 def->label = L("Slow");
2645 def->full_label = L("Slow tilt");
2646 def->tooltip = L("Time of the slow tilt");
2647 def->sidetext = L("s");
2648 def->min = 0;
2649 def->mode = comExpert;
2650 def->set_default_value(new ConfigOptionFloat(8.));
2651
2652 def = this->add("area_fill", coFloat);
2653 def->label = L("Area fill");
2654 def->tooltip = L("The percentage of the bed area. \nIf the print area exceeds the specified value, \nthen a slow tilt will be used, otherwise - a fast tilt");
2655 def->sidetext = L("%");
2656 def->min = 0;
2657 def->mode = comExpert;
2658 def->set_default_value(new ConfigOptionFloat(50.));
2659
2660 def = this->add("relative_correction", coFloats);
2661 def->label = L("Printer scaling correction");
2662 def->full_label = L("Printer scaling correction");
2663 def->tooltip = L("Printer scaling correction");
2664 def->min = 0;
2665 def->mode = comExpert;
2666 def->set_default_value(new ConfigOptionFloats( { 1., 1. } ));
2667
2668 def = this->add("absolute_correction", coFloat);
2669 def->label = L("Printer absolute correction");
2670 def->full_label = L("Printer absolute correction");
2671 def->tooltip = L("Will inflate or deflate the sliced 2D polygons according "
2672 "to the sign of the correction.");
2673 def->mode = comExpert;
2674 def->set_default_value(new ConfigOptionFloat(0.0));
2675
2676 def = this->add("elefant_foot_min_width", coFloat);
2677 def->label = L("Elephant foot minimum width");
2678 def->category = L("Advanced");
2679 def->tooltip = L("Minimum width of features to maintain when doing elephant foot compensation.");
2680 def->sidetext = L("mm");
2681 def->min = 0;
2682 def->mode = comAdvanced;
2683 def->set_default_value(new ConfigOptionFloat(0.2));
2684
2685 def = this->add("gamma_correction", coFloat);
2686 def->label = L("Printer gamma correction");
2687 def->full_label = L("Printer gamma correction");
2688 def->tooltip = L("This will apply a gamma correction to the rasterized 2D "
2689 "polygons. A gamma value of zero means thresholding with "
2690 "the threshold in the middle. This behaviour eliminates "
2691 "antialiasing without losing holes in polygons.");
2692 def->min = 0;
2693 def->max = 1;
2694 def->mode = comExpert;
2695 def->set_default_value(new ConfigOptionFloat(1.0));
2696
2697
2698 // SLA Material settings.
2699 def = this->add("material_type", coString);
2700 def->label = L("SLA material type");
2701 def->tooltip = L("SLA material type");
2702 def->gui_type = "f_enum_open"; // TODO: ???
2703 def->gui_flags = "show_value";
2704 def->enum_values.push_back("Tough");
2705 def->enum_values.push_back("Flexible");
2706 def->enum_values.push_back("Casting");
2707 def->enum_values.push_back("Dental");
2708 def->enum_values.push_back("Heat-resistant");
2709 def->set_default_value(new ConfigOptionString("Tough"));
2710
2711 def = this->add("initial_layer_height", coFloat);
2712 def->label = L("Initial layer height");
2713 def->tooltip = L("Initial layer height");
2714 def->sidetext = L("mm");
2715 def->min = 0;
2716 def->set_default_value(new ConfigOptionFloat(0.3));
2717
2718 def = this->add("bottle_volume", coFloat);
2719 def->label = L("Bottle volume");
2720 def->tooltip = L("Bottle volume");
2721 def->sidetext = L("ml");
2722 def->min = 50;
2723 def->set_default_value(new ConfigOptionFloat(1000.0));
2724
2725 def = this->add("bottle_weight", coFloat);
2726 def->label = L("Bottle weight");
2727 def->tooltip = L("Bottle weight");
2728 def->sidetext = L("kg");
2729 def->min = 0;
2730 def->set_default_value(new ConfigOptionFloat(1.0));
2731
2732 def = this->add("material_density", coFloat);
2733 def->label = L("Density");
2734 def->tooltip = L("Density");
2735 def->sidetext = L("g/ml");
2736 def->min = 0;
2737 def->set_default_value(new ConfigOptionFloat(1.0));
2738
2739 def = this->add("bottle_cost", coFloat);
2740 def->label = L("Cost");
2741 def->tooltip = L("Cost");
2742 def->sidetext = L("money/bottle");
2743 def->min = 0;
2744 def->set_default_value(new ConfigOptionFloat(0.0));
2745
2746 def = this->add("faded_layers", coInt);
2747 def->label = L("Faded layers");
2748 def->tooltip = L("Number of the layers needed for the exposure time fade from initial exposure time to the exposure time");
2749 def->min = 3;
2750 def->max = 20;
2751 def->mode = comExpert;
2752 def->set_default_value(new ConfigOptionInt(10));
2753
2754 def = this->add("min_exposure_time", coFloat);
2755 def->label = L("Minimum exposure time");
2756 def->tooltip = L("Minimum exposure time");
2757 def->sidetext = L("s");
2758 def->min = 0;
2759 def->mode = comExpert;
2760 def->set_default_value(new ConfigOptionFloat(0));
2761
2762 def = this->add("max_exposure_time", coFloat);
2763 def->label = L("Maximum exposure time");
2764 def->tooltip = L("Maximum exposure time");
2765 def->sidetext = L("s");
2766 def->min = 0;
2767 def->mode = comExpert;
2768 def->set_default_value(new ConfigOptionFloat(100));
2769
2770 def = this->add("exposure_time", coFloat);
2771 def->label = L("Exposure time");
2772 def->tooltip = L("Exposure time");
2773 def->sidetext = L("s");
2774 def->min = 0;
2775 def->set_default_value(new ConfigOptionFloat(10));
2776
2777 def = this->add("min_initial_exposure_time", coFloat);
2778 def->label = L("Minimum initial exposure time");
2779 def->tooltip = L("Minimum initial exposure time");
2780 def->sidetext = L("s");
2781 def->min = 0;
2782 def->mode = comExpert;
2783 def->set_default_value(new ConfigOptionFloat(0));
2784
2785 def = this->add("max_initial_exposure_time", coFloat);
2786 def->label = L("Maximum initial exposure time");
2787 def->tooltip = L("Maximum initial exposure time");
2788 def->sidetext = L("s");
2789 def->min = 0;
2790 def->mode = comExpert;
2791 def->set_default_value(new ConfigOptionFloat(150));
2792
2793 def = this->add("initial_exposure_time", coFloat);
2794 def->label = L("Initial exposure time");
2795 def->tooltip = L("Initial exposure time");
2796 def->sidetext = L("s");
2797 def->min = 0;
2798 def->set_default_value(new ConfigOptionFloat(15));
2799
2800 def = this->add("material_correction", coFloats);
2801 def->full_label = L("Correction for expansion");
2802 def->tooltip = L("Correction for expansion");
2803 def->min = 0;
2804 def->mode = comExpert;
2805 def->set_default_value(new ConfigOptionFloats( { 1. , 1. } ));
2806
2807 def = this->add("material_notes", coString);
2808 def->label = L("SLA print material notes");
2809 def->tooltip = L("You can put your notes regarding the SLA print material here.");
2810 def->multiline = true;
2811 def->full_width = true;
2812 def->height = 13;
2813 def->mode = comAdvanced;
2814 def->set_default_value(new ConfigOptionString(""));
2815
2816 def = this->add("material_vendor", coString);
2817 def->set_default_value(new ConfigOptionString(L("(Unknown)")));
2818 def->cli = ConfigOptionDef::nocli;
2819
2820 def = this->add("default_sla_material_profile", coString);
2821 def->label = L("Default SLA material profile");
2822 def->tooltip = L("Default print profile associated with the current printer profile. "
2823 "On selection of the current printer profile, this print profile will be activated.");
2824 def->set_default_value(new ConfigOptionString());
2825 def->cli = ConfigOptionDef::nocli;
2826
2827 def = this->add("sla_material_settings_id", coString);
2828 def->set_default_value(new ConfigOptionString(""));
2829 def->cli = ConfigOptionDef::nocli;
2830
2831 def = this->add("default_sla_print_profile", coString);
2832 def->label = L("Default SLA material profile");
2833 def->tooltip = L("Default print profile associated with the current printer profile. "
2834 "On selection of the current printer profile, this print profile will be activated.");
2835 def->set_default_value(new ConfigOptionString());
2836 def->cli = ConfigOptionDef::nocli;
2837
2838 def = this->add("sla_print_settings_id", coString);
2839 def->set_default_value(new ConfigOptionString(""));
2840 def->cli = ConfigOptionDef::nocli;
2841
2842 def = this->add("supports_enable", coBool);
2843 def->label = L("Generate supports");
2844 def->category = L("Supports");
2845 def->tooltip = L("Generate supports for the models");
2846 def->mode = comSimple;
2847 def->set_default_value(new ConfigOptionBool(true));
2848
2849 def = this->add("support_head_front_diameter", coFloat);
2850 def->label = L("Pinhead front diameter");
2851 def->category = L("Supports");
2852 def->tooltip = L("Diameter of the pointing side of the head");
2853 def->sidetext = L("mm");
2854 def->min = 0;
2855 def->mode = comAdvanced;
2856 def->set_default_value(new ConfigOptionFloat(0.4));
2857
2858 def = this->add("support_head_penetration", coFloat);
2859 def->label = L("Head penetration");
2860 def->category = L("Supports");
2861 def->tooltip = L("How much the pinhead has to penetrate the model surface");
2862 def->sidetext = L("mm");
2863 def->mode = comAdvanced;
2864 def->min = 0;
2865 def->set_default_value(new ConfigOptionFloat(0.2));
2866
2867 def = this->add("support_head_width", coFloat);
2868 def->label = L("Pinhead width");
2869 def->category = L("Supports");
2870 def->tooltip = L("Width from the back sphere center to the front sphere center");
2871 def->sidetext = L("mm");
2872 def->min = 0;
2873 def->max = 20;
2874 def->mode = comAdvanced;
2875 def->set_default_value(new ConfigOptionFloat(1.0));
2876
2877 def = this->add("support_pillar_diameter", coFloat);
2878 def->label = L("Pillar diameter");
2879 def->category = L("Supports");
2880 def->tooltip = L("Diameter in mm of the support pillars");
2881 def->sidetext = L("mm");
2882 def->min = 0;
2883 def->max = 15;
2884 def->mode = comSimple;
2885 def->set_default_value(new ConfigOptionFloat(1.0));
2886
2887 def = this->add("support_small_pillar_diameter_percent", coPercent);
2888 def->label = L("Small pillar diameter percent");
2889 def->category = L("Supports");
2890 def->tooltip = L("The percentage of smaller pillars compared to the normal pillar diameter "
2891 "which are used in problematic areas where a normal pilla cannot fit.");
2892 def->sidetext = L("%");
2893 def->min = 1;
2894 def->max = 100;
2895 def->mode = comExpert;
2896 def->set_default_value(new ConfigOptionPercent(50));
2897
2898 def = this->add("support_max_bridges_on_pillar", coInt);
2899 def->label = L("Max bridges on a pillar");
2900 def->tooltip = L(
2901 "Maximum number of bridges that can be placed on a pillar. Bridges "
2902 "hold support point pinheads and connect to pillars as small branches.");
2903 def->min = 0;
2904 def->max = 50;
2905 def->mode = comExpert;
2906 def->set_default_value(new ConfigOptionInt(3));
2907
2908 def = this->add("support_pillar_connection_mode", coEnum);
2909 def->label = L("Pillar connection mode");
2910 def->tooltip = L("Controls the bridge type between two neighboring pillars."
2911 " Can be zig-zag, cross (double zig-zag) or dynamic which"
2912 " will automatically switch between the first two depending"
2913 " on the distance of the two pillars.");
2914 def->enum_keys_map = &ConfigOptionEnum<SLAPillarConnectionMode>::get_enum_values();
2915 def->enum_values.push_back("zigzag");
2916 def->enum_values.push_back("cross");
2917 def->enum_values.push_back("dynamic");
2918 def->enum_labels.push_back(L("Zig-Zag"));
2919 def->enum_labels.push_back(L("Cross"));
2920 def->enum_labels.push_back(L("Dynamic"));
2921 def->mode = comAdvanced;
2922 def->set_default_value(new ConfigOptionEnum<SLAPillarConnectionMode>(slapcmDynamic));
2923
2924 def = this->add("support_buildplate_only", coBool);
2925 def->label = L("Support on build plate only");
2926 def->category = L("Supports");
2927 def->tooltip = L("Only create support if it lies on a build plate. Don't create support on a print.");
2928 def->mode = comSimple;
2929 def->set_default_value(new ConfigOptionBool(false));
2930
2931 def = this->add("support_pillar_widening_factor", coFloat);
2932 def->label = L("Pillar widening factor");
2933 def->category = L("Supports");
2934 def->tooltip = L("Merging bridges or pillars into another pillars can "
2935 "increase the radius. Zero means no increase, one means "
2936 "full increase.");
2937 def->min = 0;
2938 def->max = 1;
2939 def->mode = comExpert;
2940 def->set_default_value(new ConfigOptionFloat(0.0));
2941
2942 def = this->add("support_base_diameter", coFloat);
2943 def->label = L("Support base diameter");
2944 def->category = L("Supports");
2945 def->tooltip = L("Diameter in mm of the pillar base");
2946 def->sidetext = L("mm");
2947 def->min = 0;
2948 def->max = 30;
2949 def->mode = comAdvanced;
2950 def->set_default_value(new ConfigOptionFloat(4.0));
2951
2952 def = this->add("support_base_height", coFloat);
2953 def->label = L("Support base height");
2954 def->category = L("Supports");
2955 def->tooltip = L("The height of the pillar base cone");
2956 def->sidetext = L("mm");
2957 def->min = 0;
2958 def->mode = comAdvanced;
2959 def->set_default_value(new ConfigOptionFloat(1.0));
2960
2961 def = this->add("support_base_safety_distance", coFloat);
2962 def->label = L("Support base safety distance");
2963 def->category = L("Supports");
2964 def->tooltip = L(
2965 "The minimum distance of the pillar base from the model in mm. "
2966 "Makes sense in zero elevation mode where a gap according "
2967 "to this parameter is inserted between the model and the pad.");
2968 def->sidetext = L("mm");
2969 def->min = 0;
2970 def->max = 10;
2971 def->mode = comExpert;
2972 def->set_default_value(new ConfigOptionFloat(1));
2973
2974 def = this->add("support_critical_angle", coFloat);
2975 def->label = L("Critical angle");
2976 def->category = L("Supports");
2977 def->tooltip = L("The default angle for connecting support sticks and junctions.");
2978 def->sidetext = L("°");
2979 def->min = 0;
2980 def->max = 90;
2981 def->mode = comExpert;
2982 def->set_default_value(new ConfigOptionFloat(45));
2983
2984 def = this->add("support_max_bridge_length", coFloat);
2985 def->label = L("Max bridge length");
2986 def->category = L("Supports");
2987 def->tooltip = L("The max length of a bridge");
2988 def->sidetext = L("mm");
2989 def->min = 0;
2990 def->mode = comAdvanced;
2991 def->set_default_value(new ConfigOptionFloat(15.0));
2992
2993 def = this->add("support_max_pillar_link_distance", coFloat);
2994 def->label = L("Max pillar linking distance");
2995 def->category = L("Supports");
2996 def->tooltip = L("The max distance of two pillars to get linked with each other."
2997 " A zero value will prohibit pillar cascading.");
2998 def->sidetext = L("mm");
2999 def->min = 0; // 0 means no linking
3000 def->mode = comAdvanced;
3001 def->set_default_value(new ConfigOptionFloat(10.0));
3002
3003 def = this->add("support_object_elevation", coFloat);
3004 def->label = L("Object elevation");
3005 def->category = L("Supports");
3006 def->tooltip = L("How much the supports should lift up the supported object. "
3007 "If \"Pad around object\" is enabled, this value is ignored.");
3008 def->sidetext = L("mm");
3009 def->min = 0;
3010 def->max = 150; // This is the max height of print on SL1
3011 def->mode = comAdvanced;
3012 def->set_default_value(new ConfigOptionFloat(5.0));
3013
3014 def = this->add("support_points_density_relative", coInt);
3015 def->label = L("Support points density");
3016 def->category = L("Supports");
3017 def->tooltip = L("This is a relative measure of support points density.");
3018 def->sidetext = L("%");
3019 def->min = 0;
3020 def->set_default_value(new ConfigOptionInt(100));
3021
3022 def = this->add("support_points_minimal_distance", coFloat);
3023 def->label = L("Minimal distance of the support points");
3024 def->category = L("Supports");
3025 def->tooltip = L("No support points will be placed closer than this threshold.");
3026 def->sidetext = L("mm");
3027 def->min = 0;
3028 def->set_default_value(new ConfigOptionFloat(1.f));
3029
3030 def = this->add("pad_enable", coBool);
3031 def->label = L("Use pad");
3032 def->category = L("Pad");
3033 def->tooltip = L("Add a pad underneath the supported model");
3034 def->mode = comSimple;
3035 def->set_default_value(new ConfigOptionBool(true));
3036
3037 def = this->add("pad_wall_thickness", coFloat);
3038 def->label = L("Pad wall thickness");
3039 def->category = L("Pad");
3040 def->tooltip = L("The thickness of the pad and its optional cavity walls.");
3041 def->sidetext = L("mm");
3042 def->min = 0;
3043 def->max = 30;
3044 def->mode = comSimple;
3045 def->set_default_value(new ConfigOptionFloat(2.0));
3046
3047 def = this->add("pad_wall_height", coFloat);
3048 def->label = L("Pad wall height");
3049 def->tooltip = L("Defines the pad cavity depth. Set to zero to disable the cavity. "
3050 "Be careful when enabling this feature, as some resins may "
3051 "produce an extreme suction effect inside the cavity, "
3052 "which makes peeling the print off the vat foil difficult.");
3053 def->category = L("Pad");
3054 // def->tooltip = L("");
3055 def->sidetext = L("mm");
3056 def->min = 0;
3057 def->max = 30;
3058 def->mode = comExpert;
3059 def->set_default_value(new ConfigOptionFloat(0.));
3060
3061 def = this->add("pad_brim_size", coFloat);
3062 def->label = L("Pad brim size");
3063 def->tooltip = L("How far should the pad extend around the contained geometry");
3064 def->category = L("Pad");
3065 // def->tooltip = L("");
3066 def->sidetext = L("mm");
3067 def->min = 0;
3068 def->max = 30;
3069 def->mode = comAdvanced;
3070 def->set_default_value(new ConfigOptionFloat(1.6));
3071
3072 def = this->add("pad_max_merge_distance", coFloat);
3073 def->label = L("Max merge distance");
3074 def->category = L("Pad");
3075 def->tooltip = L("Some objects can get along with a few smaller pads "
3076 "instead of a single big one. This parameter defines "
3077 "how far the center of two smaller pads should be. If they"
3078 "are closer, they will get merged into one pad.");
3079 def->sidetext = L("mm");
3080 def->min = 0;
3081 def->mode = comExpert;
3082 def->set_default_value(new ConfigOptionFloat(50.0));
3083
3084 // This is disabled on the UI. I hope it will never be enabled.
3085 // def = this->add("pad_edge_radius", coFloat);
3086 // def->label = L("Pad edge radius");
3087 // def->category = L("Pad");
3088 //// def->tooltip = L("");
3089 // def->sidetext = L("mm");
3090 // def->min = 0;
3091 // def->mode = comAdvanced;
3092 // def->set_default_value(new ConfigOptionFloat(1.0));
3093
3094 def = this->add("pad_wall_slope", coFloat);
3095 def->label = L("Pad wall slope");
3096 def->category = L("Pad");
3097 def->tooltip = L("The slope of the pad wall relative to the bed plane. "
3098 "90 degrees means straight walls.");
3099 def->sidetext = L("°");
3100 def->min = 45;
3101 def->max = 90;
3102 def->mode = comAdvanced;
3103 def->set_default_value(new ConfigOptionFloat(90.0));
3104
3105 def = this->add("pad_around_object", coBool);
3106 def->label = L("Pad around object");
3107 def->category = L("Pad");
3108 def->tooltip = L("Create pad around object and ignore the support elevation");
3109 def->mode = comSimple;
3110 def->set_default_value(new ConfigOptionBool(false));
3111
3112 def = this->add("pad_around_object_everywhere", coBool);
3113 def->label = L("Pad around object everywhere");
3114 def->category = L("Pad");
3115 def->tooltip = L("Force pad around object everywhere");
3116 def->mode = comSimple;
3117 def->set_default_value(new ConfigOptionBool(false));
3118
3119 def = this->add("pad_object_gap", coFloat);
3120 def->label = L("Pad object gap");
3121 def->category = L("Pad");
3122 def->tooltip = L("The gap between the object bottom and the generated "
3123 "pad in zero elevation mode.");
3124 def->sidetext = L("mm");
3125 def->min = 0;
3126 def->max = 10;
3127 def->mode = comExpert;
3128 def->set_default_value(new ConfigOptionFloat(1));
3129
3130 def = this->add("pad_object_connector_stride", coFloat);
3131 def->label = L("Pad object connector stride");
3132 def->category = L("Pad");
3133 def->tooltip = L("Distance between two connector sticks which connect the object and the generated pad.");
3134 def->sidetext = L("mm");
3135 def->min = 0;
3136 def->mode = comExpert;
3137 def->set_default_value(new ConfigOptionFloat(10));
3138
3139 def = this->add("pad_object_connector_width", coFloat);
3140 def->label = L("Pad object connector width");
3141 def->category = L("Pad");
3142 def->tooltip = L("Width of the connector sticks which connect the object and the generated pad.");
3143 def->sidetext = L("mm");
3144 def->min = 0;
3145 def->mode = comExpert;
3146 def->set_default_value(new ConfigOptionFloat(0.5));
3147
3148 def = this->add("pad_object_connector_penetration", coFloat);
3149 def->label = L("Pad object connector penetration");
3150 def->category = L("Pad");
3151 def->tooltip = L(
3152 "How much should the tiny connectors penetrate into the model body.");
3153 def->sidetext = L("mm");
3154 def->min = 0;
3155 def->mode = comExpert;
3156 def->set_default_value(new ConfigOptionFloat(0.3));
3157
3158 def = this->add("hollowing_enable", coBool);
3159 def->label = L("Enable hollowing");
3160 def->category = L("Hollowing");
3161 def->tooltip = L("Hollow out a model to have an empty interior");
3162 def->mode = comSimple;
3163 def->set_default_value(new ConfigOptionBool(false));
3164
3165 def = this->add("hollowing_min_thickness", coFloat);
3166 def->label = L("Wall thickness");
3167 def->category = L("Hollowing");
3168 def->tooltip = L("Minimum wall thickness of a hollowed model.");
3169 def->sidetext = L("mm");
3170 def->min = 1;
3171 def->max = 10;
3172 def->mode = comSimple;
3173 def->set_default_value(new ConfigOptionFloat(3.));
3174
3175 def = this->add("hollowing_quality", coFloat);
3176 def->label = L("Accuracy");
3177 def->category = L("Hollowing");
3178 def->tooltip = L("Performance vs accuracy of calculation. Lower values may produce unwanted artifacts.");
3179 def->min = 0;
3180 def->max = 1;
3181 def->mode = comExpert;
3182 def->set_default_value(new ConfigOptionFloat(0.5));
3183
3184 def = this->add("hollowing_closing_distance", coFloat);
3185 def->label = L("Closing distance");
3186 def->category = L("Hollowing");
3187 def->tooltip = L(
3188 "Hollowing is done in two steps: first, an imaginary interior is "
3189 "calculated deeper (offset plus the closing distance) in the object and "
3190 "then it's inflated back to the specified offset. A greater closing "
3191 "distance makes the interior more rounded. At zero, the interior will "
3192 "resemble the exterior the most.");
3193 def->sidetext = L("mm");
3194 def->min = 0;
3195 def->max = 10;
3196 def->mode = comExpert;
3197 def->set_default_value(new ConfigOptionFloat(2.0));
3198 }
3199
handle_legacy(t_config_option_key & opt_key,std::string & value)3200 void PrintConfigDef::handle_legacy(t_config_option_key &opt_key, std::string &value)
3201 {
3202 // handle legacy options
3203 if (opt_key == "extrusion_width_ratio" || opt_key == "bottom_layer_speed_ratio"
3204 || opt_key == "first_layer_height_ratio") {
3205 boost::replace_first(opt_key, "_ratio", "");
3206 if (opt_key == "bottom_layer_speed") opt_key = "first_layer_speed";
3207 try {
3208 float v = boost::lexical_cast<float>(value);
3209 if (v != 0)
3210 value = boost::lexical_cast<std::string>(v*100) + "%";
3211 } catch (boost::bad_lexical_cast &) {
3212 value = "0";
3213 }
3214 } else if (opt_key == "gcode_flavor" && value == "makerbot") {
3215 value = "makerware";
3216 } else if (opt_key == "fill_density" && value.find("%") == std::string::npos) {
3217 try {
3218 // fill_density was turned into a percent value
3219 float v = boost::lexical_cast<float>(value);
3220 value = boost::lexical_cast<std::string>(v*100) + "%";
3221 } catch (boost::bad_lexical_cast &) {}
3222 } else if (opt_key == "randomize_start" && value == "1") {
3223 opt_key = "seam_position";
3224 value = "random";
3225 } else if (opt_key == "bed_size" && !value.empty()) {
3226 opt_key = "bed_shape";
3227 ConfigOptionPoint p;
3228 p.deserialize(value, ForwardCompatibilitySubstitutionRule::Disable);
3229 std::ostringstream oss;
3230 oss << "0x0," << p.value(0) << "x0," << p.value(0) << "x" << p.value(1) << ",0x" << p.value(1);
3231 value = oss.str();
3232 } else if ((opt_key == "perimeter_acceleration" && value == "25")
3233 || (opt_key == "infill_acceleration" && value == "50")) {
3234 /* For historical reasons, the world's full of configs having these very low values;
3235 to avoid unexpected behavior we need to ignore them. Banning these two hard-coded
3236 values is a dirty hack and will need to be removed sometime in the future, but it
3237 will avoid lots of complaints for now. */
3238 value = "0";
3239 } else if (opt_key == "support_material_pattern" && value == "pillars") {
3240 // Slic3r PE does not support the pillars. They never worked well.
3241 value = "rectilinear";
3242 } else if (opt_key == "skirt_height" && value == "-1") {
3243 // PrusaSlicer no more accepts skirt_height == -1 to print a draft shield to the top of the highest object.
3244 // A new "draft_shield" boolean config value is used instead.
3245 opt_key = "draft_shield";
3246 value = "1";
3247 } else if (opt_key == "octoprint_host") {
3248 opt_key = "print_host";
3249 } else if (opt_key == "octoprint_cafile") {
3250 opt_key = "printhost_cafile";
3251 } else if (opt_key == "octoprint_apikey") {
3252 opt_key = "printhost_apikey";
3253 }
3254
3255 // Ignore the following obsolete configuration keys:
3256 static std::set<std::string> ignore = {
3257 "duplicate_x", "duplicate_y", "gcode_arcs", "multiply_x", "multiply_y",
3258 "support_material_tool", "acceleration", "adjust_overhang_flow",
3259 "standby_temperature", "scale", "rotate", "duplicate", "duplicate_grid",
3260 "start_perimeters_at_concave_points", "start_perimeters_at_non_overhang", "randomize_start",
3261 "seal_position", "vibration_limit", "bed_size",
3262 "print_center", "g0", "threads", "pressure_advance", "wipe_tower_per_color_wipe"
3263 #ifndef HAS_PRESSURE_EQUALIZER
3264 , "max_volumetric_extrusion_rate_slope_positive", "max_volumetric_extrusion_rate_slope_negative",
3265 #endif /* HAS_PRESSURE_EQUALIZER */
3266 "serial_port", "serial_speed"
3267 };
3268
3269 // In PrusaSlicer 2.3.0-alpha0 the "monotonous" infill was introduced, which was later renamed to "monotonic".
3270 if (value == "monotonous" && (opt_key == "top_fill_pattern" || opt_key == "bottom_fill_pattern" || opt_key == "fill_pattern"))
3271 value = "monotonic";
3272
3273 if (ignore.find(opt_key) != ignore.end()) {
3274 opt_key = "";
3275 return;
3276 }
3277
3278 if (! print_config_def.has(opt_key)) {
3279 opt_key = "";
3280 return;
3281 }
3282 }
3283
3284 const PrintConfigDef print_config_def;
3285
full_print_config()3286 DynamicPrintConfig DynamicPrintConfig::full_print_config()
3287 {
3288 return DynamicPrintConfig((const PrintRegionConfig&)FullPrintConfig::defaults());
3289 }
3290
DynamicPrintConfig(const StaticPrintConfig & rhs)3291 DynamicPrintConfig::DynamicPrintConfig(const StaticPrintConfig& rhs) : DynamicConfig(rhs, rhs.keys_ref())
3292 {
3293 }
3294
new_from_defaults_keys(const std::vector<std::string> & keys)3295 DynamicPrintConfig* DynamicPrintConfig::new_from_defaults_keys(const std::vector<std::string> &keys)
3296 {
3297 auto *out = new DynamicPrintConfig();
3298 out->apply_only(FullPrintConfig::defaults(), keys);
3299 return out;
3300 }
3301
min_object_distance(const ConfigBase & cfg)3302 double min_object_distance(const ConfigBase &cfg)
3303 {
3304 double ret = 0.;
3305
3306 if (printer_technology(cfg) == ptSLA) ret = 6.;
3307 else {
3308 auto ecr_opt = cfg.option<ConfigOptionFloat>("extruder_clearance_radius");
3309 auto dd_opt = cfg.option<ConfigOptionFloat>("duplicate_distance");
3310 auto co_opt = cfg.option<ConfigOptionBool>("complete_objects");
3311
3312 if (!ecr_opt || !dd_opt || !co_opt) ret = 0.;
3313 else {
3314 // min object distance is max(duplicate_distance, clearance_radius)
3315 ret = (co_opt->value && ecr_opt->value > dd_opt->value) ?
3316 ecr_opt->value : dd_opt->value;
3317 }
3318 }
3319
3320 return ret;
3321 }
3322
printer_technology(const ConfigBase & cfg)3323 PrinterTechnology printer_technology(const ConfigBase &cfg)
3324 {
3325 const ConfigOptionEnum<PrinterTechnology> *opt = cfg.option<ConfigOptionEnum<PrinterTechnology>>("printer_technology");
3326
3327 if (opt) return opt->value;
3328
3329 const ConfigOptionBool *export_opt = cfg.option<ConfigOptionBool>("export_sla");
3330 if (export_opt && export_opt->getBool()) return ptSLA;
3331
3332 export_opt = cfg.option<ConfigOptionBool>("export_gcode");
3333 if (export_opt && export_opt->getBool()) return ptFFF;
3334
3335 return ptUnknown;
3336 }
3337
normalize_fdm()3338 void DynamicPrintConfig::normalize_fdm()
3339 {
3340 if (this->has("extruder")) {
3341 int extruder = this->option("extruder")->getInt();
3342 this->erase("extruder");
3343 if (extruder != 0) {
3344 if (!this->has("infill_extruder"))
3345 this->option("infill_extruder", true)->setInt(extruder);
3346 if (!this->has("perimeter_extruder"))
3347 this->option("perimeter_extruder", true)->setInt(extruder);
3348 // Don't propagate the current extruder to support.
3349 // For non-soluble supports, the default "0" extruder means to use the active extruder,
3350 // for soluble supports one certainly does not want to set the extruder to non-soluble.
3351 // if (!this->has("support_material_extruder"))
3352 // this->option("support_material_extruder", true)->setInt(extruder);
3353 // if (!this->has("support_material_interface_extruder"))
3354 // this->option("support_material_interface_extruder", true)->setInt(extruder);
3355 }
3356 }
3357
3358 if (!this->has("solid_infill_extruder") && this->has("infill_extruder"))
3359 this->option("solid_infill_extruder", true)->setInt(this->option("infill_extruder")->getInt());
3360
3361 if (this->has("spiral_vase") && this->opt<ConfigOptionBool>("spiral_vase", true)->value) {
3362 {
3363 // this should be actually done only on the spiral layers instead of all
3364 auto* opt = this->opt<ConfigOptionBools>("retract_layer_change", true);
3365 opt->values.assign(opt->values.size(), false); // set all values to false
3366 // Disable retract on layer change also for filament overrides.
3367 auto* opt_n = this->opt<ConfigOptionBoolsNullable>("filament_retract_layer_change", true);
3368 opt_n->values.assign(opt_n->values.size(), false); // Set all values to false.
3369 }
3370 {
3371 this->opt<ConfigOptionInt>("perimeters", true)->value = 1;
3372 this->opt<ConfigOptionInt>("top_solid_layers", true)->value = 0;
3373 this->opt<ConfigOptionPercent>("fill_density", true)->value = 0;
3374 }
3375 }
3376 }
3377
set_num_extruders(unsigned int num_extruders)3378 void DynamicPrintConfig::set_num_extruders(unsigned int num_extruders)
3379 {
3380 const auto &defaults = FullPrintConfig::defaults();
3381 for (const std::string &key : print_config_def.extruder_option_keys()) {
3382 if (key == "default_filament_profile")
3383 // Don't resize this field, as it is presented to the user at the "Dependencies" page of the Printer profile and we don't want to present
3384 // empty fields there, if not defined by the system profile.
3385 continue;
3386 auto *opt = this->option(key, false);
3387 assert(opt != nullptr);
3388 assert(opt->is_vector());
3389 if (opt != nullptr && opt->is_vector())
3390 static_cast<ConfigOptionVectorBase*>(opt)->resize(num_extruders, defaults.option(key));
3391 }
3392 }
3393
validate()3394 std::string DynamicPrintConfig::validate()
3395 {
3396 // Full print config is initialized from the defaults.
3397 const ConfigOption *opt = this->option("printer_technology", false);
3398 auto printer_technology = (opt == nullptr) ? ptFFF : static_cast<PrinterTechnology>(dynamic_cast<const ConfigOptionEnumGeneric*>(opt)->value);
3399 switch (printer_technology) {
3400 case ptFFF:
3401 {
3402 FullPrintConfig fpc;
3403 fpc.apply(*this, true);
3404 // Verify this print options through the FullPrintConfig.
3405 return fpc.validate();
3406 }
3407 default:
3408 //FIXME no validation on SLA data?
3409 return std::string();
3410 }
3411 }
3412
3413 //FIXME localize this function.
validate()3414 std::string FullPrintConfig::validate()
3415 {
3416 // --layer-height
3417 if (this->get_abs_value("layer_height") <= 0)
3418 return "Invalid value for --layer-height";
3419 if (fabs(fmod(this->get_abs_value("layer_height"), SCALING_FACTOR)) > 1e-4)
3420 return "--layer-height must be a multiple of print resolution";
3421
3422 // --first-layer-height
3423 if (this->get_abs_value("first_layer_height") <= 0)
3424 return "Invalid value for --first-layer-height";
3425
3426 // --filament-diameter
3427 for (double fd : this->filament_diameter.values)
3428 if (fd < 1)
3429 return "Invalid value for --filament-diameter";
3430
3431 // --nozzle-diameter
3432 for (double nd : this->nozzle_diameter.values)
3433 if (nd < 0.005)
3434 return "Invalid value for --nozzle-diameter";
3435
3436 // --perimeters
3437 if (this->perimeters.value < 0)
3438 return "Invalid value for --perimeters";
3439
3440 // --solid-layers
3441 if (this->top_solid_layers < 0)
3442 return "Invalid value for --top-solid-layers";
3443 if (this->bottom_solid_layers < 0)
3444 return "Invalid value for --bottom-solid-layers";
3445
3446 if (this->use_firmware_retraction.value &&
3447 this->gcode_flavor.value != gcfSmoothie &&
3448 this->gcode_flavor.value != gcfRepRapSprinter &&
3449 this->gcode_flavor.value != gcfRepRapFirmware &&
3450 this->gcode_flavor.value != gcfMarlin &&
3451 this->gcode_flavor.value != gcfMachinekit &&
3452 this->gcode_flavor.value != gcfRepetier)
3453 return "--use-firmware-retraction is only supported by Marlin, Smoothie, RepRapFirmware, Repetier and Machinekit firmware";
3454
3455 if (this->use_firmware_retraction.value)
3456 for (unsigned char wipe : this->wipe.values)
3457 if (wipe)
3458 return "--use-firmware-retraction is not compatible with --wipe";
3459
3460 // --gcode-flavor
3461 if (! print_config_def.get("gcode_flavor")->has_enum_value(this->gcode_flavor.serialize()))
3462 return "Invalid value for --gcode-flavor";
3463
3464 // --fill-pattern
3465 if (! print_config_def.get("fill_pattern")->has_enum_value(this->fill_pattern.serialize()))
3466 return "Invalid value for --fill-pattern";
3467
3468 // --top-fill-pattern
3469 if (! print_config_def.get("top_fill_pattern")->has_enum_value(this->top_fill_pattern.serialize()))
3470 return "Invalid value for --top-fill-pattern";
3471
3472 // --bottom-fill-pattern
3473 if (! print_config_def.get("bottom_fill_pattern")->has_enum_value(this->bottom_fill_pattern.serialize()))
3474 return "Invalid value for --bottom-fill-pattern";
3475
3476 // --fill-density
3477 if (fabs(this->fill_density.value - 100.) < EPSILON &&
3478 ! print_config_def.get("top_fill_pattern")->has_enum_value(this->fill_pattern.serialize()))
3479 return "The selected fill pattern is not supposed to work at 100% density";
3480
3481 // --infill-every-layers
3482 if (this->infill_every_layers < 1)
3483 return "Invalid value for --infill-every-layers";
3484
3485 // --skirt-height
3486 if (this->skirt_height < 0)
3487 return "Invalid value for --skirt-height";
3488
3489 // --bridge-flow-ratio
3490 if (this->bridge_flow_ratio <= 0)
3491 return "Invalid value for --bridge-flow-ratio";
3492
3493 // extruder clearance
3494 if (this->extruder_clearance_radius <= 0)
3495 return "Invalid value for --extruder-clearance-radius";
3496 if (this->extruder_clearance_height <= 0)
3497 return "Invalid value for --extruder-clearance-height";
3498
3499 // --extrusion-multiplier
3500 for (double em : this->extrusion_multiplier.values)
3501 if (em <= 0)
3502 return "Invalid value for --extrusion-multiplier";
3503
3504 // --default-acceleration
3505 if ((this->perimeter_acceleration != 0. || this->infill_acceleration != 0. || this->bridge_acceleration != 0. || this->first_layer_acceleration != 0.) &&
3506 this->default_acceleration == 0.)
3507 return "Invalid zero value for --default-acceleration when using other acceleration settings";
3508
3509 // --spiral-vase
3510 if (this->spiral_vase) {
3511 // Note that we might want to have more than one perimeter on the bottom
3512 // solid layers.
3513 if (this->perimeters > 1)
3514 return "Can't make more than one perimeter when spiral vase mode is enabled";
3515 else if (this->perimeters < 1)
3516 return "Can't make less than one perimeter when spiral vase mode is enabled";
3517 if (this->fill_density > 0)
3518 return "Spiral vase mode can only print hollow objects, so you need to set Fill density to 0";
3519 if (this->top_solid_layers > 0)
3520 return "Spiral vase mode is not compatible with top solid layers";
3521 if (this->support_material || this->support_material_enforce_layers > 0)
3522 return "Spiral vase mode is not compatible with support material";
3523 }
3524
3525 // extrusion widths
3526 {
3527 double max_nozzle_diameter = 0.;
3528 for (double dmr : this->nozzle_diameter.values)
3529 max_nozzle_diameter = std::max(max_nozzle_diameter, dmr);
3530 const char *widths[] = { "external_perimeter", "perimeter", "infill", "solid_infill", "top_infill", "support_material", "first_layer" };
3531 for (size_t i = 0; i < sizeof(widths) / sizeof(widths[i]); ++ i) {
3532 std::string key(widths[i]);
3533 key += "_extrusion_width";
3534 if (this->get_abs_value(key, max_nozzle_diameter) > 10. * max_nozzle_diameter)
3535 return std::string("Invalid extrusion width (too large): ") + key;
3536 }
3537 }
3538
3539 // Out of range validation of numeric values.
3540 for (const std::string &opt_key : this->keys()) {
3541 const ConfigOption *opt = this->optptr(opt_key);
3542 assert(opt != nullptr);
3543 const ConfigOptionDef *optdef = print_config_def.get(opt_key);
3544 assert(optdef != nullptr);
3545 bool out_of_range = false;
3546 switch (opt->type()) {
3547 case coFloat:
3548 case coPercent:
3549 case coFloatOrPercent:
3550 {
3551 auto *fopt = static_cast<const ConfigOptionFloat*>(opt);
3552 out_of_range = fopt->value < optdef->min || fopt->value > optdef->max;
3553 break;
3554 }
3555 case coFloats:
3556 case coPercents:
3557 for (double v : static_cast<const ConfigOptionVector<double>*>(opt)->values)
3558 if (v < optdef->min || v > optdef->max) {
3559 out_of_range = true;
3560 break;
3561 }
3562 break;
3563 case coInt:
3564 {
3565 auto *iopt = static_cast<const ConfigOptionInt*>(opt);
3566 out_of_range = iopt->value < optdef->min || iopt->value > optdef->max;
3567 break;
3568 }
3569 case coInts:
3570 for (int v : static_cast<const ConfigOptionVector<int>*>(opt)->values)
3571 if (v < optdef->min || v > optdef->max) {
3572 out_of_range = true;
3573 break;
3574 }
3575 break;
3576 default:;
3577 }
3578 if (out_of_range)
3579 return std::string("Value out of range: " + opt_key);
3580 }
3581
3582 // The configuration is valid.
3583 return "";
3584 }
3585
3586 // Declare the static caches for each StaticPrintConfig derived class.
3587 StaticPrintConfig::StaticCache<class Slic3r::PrintObjectConfig> PrintObjectConfig::s_cache_PrintObjectConfig;
3588 StaticPrintConfig::StaticCache<class Slic3r::PrintRegionConfig> PrintRegionConfig::s_cache_PrintRegionConfig;
3589 StaticPrintConfig::StaticCache<class Slic3r::MachineEnvelopeConfig> MachineEnvelopeConfig::s_cache_MachineEnvelopeConfig;
3590 StaticPrintConfig::StaticCache<class Slic3r::GCodeConfig> GCodeConfig::s_cache_GCodeConfig;
3591 StaticPrintConfig::StaticCache<class Slic3r::PrintConfig> PrintConfig::s_cache_PrintConfig;
3592 StaticPrintConfig::StaticCache<class Slic3r::FullPrintConfig> FullPrintConfig::s_cache_FullPrintConfig;
3593
3594 StaticPrintConfig::StaticCache<class Slic3r::SLAMaterialConfig> SLAMaterialConfig::s_cache_SLAMaterialConfig;
3595 StaticPrintConfig::StaticCache<class Slic3r::SLAPrintConfig> SLAPrintConfig::s_cache_SLAPrintConfig;
3596 StaticPrintConfig::StaticCache<class Slic3r::SLAPrintObjectConfig> SLAPrintObjectConfig::s_cache_SLAPrintObjectConfig;
3597 StaticPrintConfig::StaticCache<class Slic3r::SLAPrinterConfig> SLAPrinterConfig::s_cache_SLAPrinterConfig;
3598 StaticPrintConfig::StaticCache<class Slic3r::SLAFullPrintConfig> SLAFullPrintConfig::s_cache_SLAFullPrintConfig;
3599
CLIActionsConfigDef()3600 CLIActionsConfigDef::CLIActionsConfigDef()
3601 {
3602 ConfigOptionDef* def;
3603
3604 // Actions:
3605 def = this->add("export_obj", coBool);
3606 def->label = L("Export OBJ");
3607 def->tooltip = L("Export the model(s) as OBJ.");
3608 def->set_default_value(new ConfigOptionBool(false));
3609
3610 /*
3611 def = this->add("export_svg", coBool);
3612 def->label = L("Export SVG");
3613 def->tooltip = L("Slice the model and export solid slices as SVG.");
3614 def->set_default_value(new ConfigOptionBool(false));
3615 */
3616
3617 def = this->add("export_sla", coBool);
3618 def->label = L("Export SLA");
3619 def->tooltip = L("Slice the model and export SLA printing layers as PNG.");
3620 def->cli = "export-sla|sla";
3621 def->set_default_value(new ConfigOptionBool(false));
3622
3623 def = this->add("export_3mf", coBool);
3624 def->label = L("Export 3MF");
3625 def->tooltip = L("Export the model(s) as 3MF.");
3626 def->set_default_value(new ConfigOptionBool(false));
3627
3628 def = this->add("export_amf", coBool);
3629 def->label = L("Export AMF");
3630 def->tooltip = L("Export the model(s) as AMF.");
3631 def->set_default_value(new ConfigOptionBool(false));
3632
3633 def = this->add("export_stl", coBool);
3634 def->label = L("Export STL");
3635 def->tooltip = L("Export the model(s) as STL.");
3636 def->set_default_value(new ConfigOptionBool(false));
3637
3638 def = this->add("export_gcode", coBool);
3639 def->label = L("Export G-code");
3640 def->tooltip = L("Slice the model and export toolpaths as G-code.");
3641 def->cli = "export-gcode|gcode|g";
3642 def->set_default_value(new ConfigOptionBool(false));
3643
3644 def = this->add("gcodeviewer", coBool);
3645 def->label = L("G-code viewer");
3646 def->tooltip = L("Visualize an already sliced and saved G-code");
3647 def->cli = "gcodeviewer";
3648 def->set_default_value(new ConfigOptionBool(false));
3649
3650 def = this->add("slice", coBool);
3651 def->label = L("Slice");
3652 def->tooltip = L("Slice the model as FFF or SLA based on the printer_technology configuration value.");
3653 def->cli = "slice|s";
3654 def->set_default_value(new ConfigOptionBool(false));
3655
3656 def = this->add("help", coBool);
3657 def->label = L("Help");
3658 def->tooltip = L("Show this help.");
3659 def->cli = "help|h";
3660 def->set_default_value(new ConfigOptionBool(false));
3661
3662 def = this->add("help_fff", coBool);
3663 def->label = L("Help (FFF options)");
3664 def->tooltip = L("Show the full list of print/G-code configuration options.");
3665 def->set_default_value(new ConfigOptionBool(false));
3666
3667 def = this->add("help_sla", coBool);
3668 def->label = L("Help (SLA options)");
3669 def->tooltip = L("Show the full list of SLA print configuration options.");
3670 def->set_default_value(new ConfigOptionBool(false));
3671
3672 def = this->add("info", coBool);
3673 def->label = L("Output Model Info");
3674 def->tooltip = L("Write information about the model to the console.");
3675 def->set_default_value(new ConfigOptionBool(false));
3676
3677 def = this->add("save", coString);
3678 def->label = L("Save config file");
3679 def->tooltip = L("Save configuration to the specified file.");
3680 def->set_default_value(new ConfigOptionString());
3681 }
3682
CLITransformConfigDef()3683 CLITransformConfigDef::CLITransformConfigDef()
3684 {
3685 ConfigOptionDef* def;
3686
3687 // Transform options:
3688 def = this->add("align_xy", coPoint);
3689 def->label = L("Align XY");
3690 def->tooltip = L("Align the model to the given point.");
3691 def->set_default_value(new ConfigOptionPoint(Vec2d(100,100)));
3692
3693 def = this->add("cut", coFloat);
3694 def->label = L("Cut");
3695 def->tooltip = L("Cut model at the given Z.");
3696 def->set_default_value(new ConfigOptionFloat(0));
3697
3698 /*
3699 def = this->add("cut_grid", coFloat);
3700 def->label = L("Cut");
3701 def->tooltip = L("Cut model in the XY plane into tiles of the specified max size.");
3702 def->set_default_value(new ConfigOptionPoint());
3703
3704 def = this->add("cut_x", coFloat);
3705 def->label = L("Cut");
3706 def->tooltip = L("Cut model at the given X.");
3707 def->set_default_value(new ConfigOptionFloat(0));
3708
3709 def = this->add("cut_y", coFloat);
3710 def->label = L("Cut");
3711 def->tooltip = L("Cut model at the given Y.");
3712 def->set_default_value(new ConfigOptionFloat(0));
3713 */
3714
3715 def = this->add("center", coPoint);
3716 def->label = L("Center");
3717 def->tooltip = L("Center the print around the given center.");
3718 def->set_default_value(new ConfigOptionPoint(Vec2d(100,100)));
3719
3720 def = this->add("dont_arrange", coBool);
3721 def->label = L("Don't arrange");
3722 def->tooltip = L("Do not rearrange the given models before merging and keep their original XY coordinates.");
3723
3724 def = this->add("duplicate", coInt);
3725 def->label = L("Duplicate");
3726 def->tooltip =L("Multiply copies by this factor.");
3727 def->min = 1;
3728
3729 def = this->add("duplicate_grid", coPoint);
3730 def->label = L("Duplicate by grid");
3731 def->tooltip = L("Multiply copies by creating a grid.");
3732
3733 def = this->add("merge", coBool);
3734 def->label = L("Merge");
3735 def->tooltip = L("Arrange the supplied models in a plate and merge them in a single model in order to perform actions once.");
3736 def->cli = "merge|m";
3737
3738 def = this->add("repair", coBool);
3739 def->label = L("Repair");
3740 def->tooltip = L("Try to repair any non-manifold meshes (this option is implicitly added whenever we need to slice the model to perform the requested action).");
3741
3742 def = this->add("rotate", coFloat);
3743 def->label = L("Rotate");
3744 def->tooltip = L("Rotation angle around the Z axis in degrees.");
3745 def->set_default_value(new ConfigOptionFloat(0));
3746
3747 def = this->add("rotate_x", coFloat);
3748 def->label = L("Rotate around X");
3749 def->tooltip = L("Rotation angle around the X axis in degrees.");
3750 def->set_default_value(new ConfigOptionFloat(0));
3751
3752 def = this->add("rotate_y", coFloat);
3753 def->label = L("Rotate around Y");
3754 def->tooltip = L("Rotation angle around the Y axis in degrees.");
3755 def->set_default_value(new ConfigOptionFloat(0));
3756
3757 def = this->add("scale", coFloatOrPercent);
3758 def->label = L("Scale");
3759 def->tooltip = L("Scaling factor or percentage.");
3760 def->set_default_value(new ConfigOptionFloatOrPercent(1, false));
3761
3762 def = this->add("split", coBool);
3763 def->label = L("Split");
3764 def->tooltip = L("Detect unconnected parts in the given model(s) and split them into separate objects.");
3765
3766 def = this->add("scale_to_fit", coPoint3);
3767 def->label = L("Scale to Fit");
3768 def->tooltip = L("Scale to fit the given volume.");
3769 def->set_default_value(new ConfigOptionPoint3(Vec3d(0,0,0)));
3770 }
3771
CLIMiscConfigDef()3772 CLIMiscConfigDef::CLIMiscConfigDef()
3773 {
3774 ConfigOptionDef* def;
3775
3776 def = this->add("ignore_nonexistent_config", coBool);
3777 def->label = "Ignore non-existent config files";
3778 def->tooltip = "Do not fail if a file supplied to --load does not exist.";
3779
3780 def = this->add("config_compatibility", coEnum);
3781 def->label = "Forward-compatibility rule when loading configurations from config files and project files (3MF, AMF).";
3782 def->tooltip = "This version of PrusaSlicer may not understand configurations produced by newest PrusaSlicer versions. "
3783 "For example, newer PrusaSlicer may extend the list of supported firmware flavors. One may decide to "
3784 "bail out or to substitute an unknown value with a default silently or verbosely.";
3785 def->enum_keys_map = &ConfigOptionEnum<ForwardCompatibilitySubstitutionRule>::get_enum_values();
3786 def->enum_values.push_back("disable");
3787 def->enum_values.push_back("enable");
3788 def->enum_values.push_back("enable_silent");
3789 def->enum_labels.push_back("Bail out on unknown configuration values");
3790 def->enum_labels.push_back("Enable reading unknown configuration values by verbosely substituting them with defaults.");
3791 def->enum_labels.push_back("Enable reading unknown configuration values by silently substituting them with defaults.");
3792 def->set_default_value(new ConfigOptionEnum<ForwardCompatibilitySubstitutionRule>(ForwardCompatibilitySubstitutionRule::Enable));
3793
3794 def = this->add("load", coStrings);
3795 def->label = "Load config file";
3796 def->tooltip = "Load configuration from the specified file. It can be used more than once to load options from multiple files.";
3797
3798 def = this->add("output", coString);
3799 def->label = "Output File";
3800 def->tooltip = "The file where the output will be written (if not specified, it will be based on the input file).";
3801 def->cli = "output|o";
3802
3803 def = this->add("single_instance", coBool);
3804 def->label = "Single instance mode";
3805 def->tooltip = "If enabled, the command line arguments are sent to an existing instance of GUI PrusaSlicer, "
3806 "or an existing PrusaSlicer window is activated. "
3807 "Overrides the \"single_instance\" configuration value from application preferences.";
3808
3809 /*
3810 def = this->add("autosave", coString);
3811 def->label = "Autosave";
3812 def->tooltip = "Automatically export current configuration to the specified file.";
3813 */
3814
3815 def = this->add("datadir", coString);
3816 def->label = "Data directory";
3817 def->tooltip = "Load and store settings at the given directory. This is useful for maintaining different profiles or including configurations from a network storage.";
3818
3819 def = this->add("loglevel", coInt);
3820 def->label = "Logging level";
3821 def->tooltip = "Sets logging sensitivity. 0:fatal, 1:error, 2:warning, 3:info, 4:debug, 5:trace\n"
3822 "For example. loglevel=2 logs fatal, error and warning level messages.";
3823 def->min = 0;
3824
3825 #if (defined(_MSC_VER) || defined(__MINGW32__)) && defined(SLIC3R_GUI)
3826 def = this->add("sw_renderer", coBool);
3827 def->label = "Render with a software renderer";
3828 def->tooltip = "Render with a software renderer. The bundled MESA software renderer is loaded instead of the default OpenGL driver.";
3829 def->min = 0;
3830 #endif /* _MSC_VER */
3831 }
3832
3833 const CLIActionsConfigDef cli_actions_config_def;
3834 const CLITransformConfigDef cli_transform_config_def;
3835 const CLIMiscConfigDef cli_misc_config_def;
3836
3837 DynamicPrintAndCLIConfig::PrintAndCLIConfigDef DynamicPrintAndCLIConfig::s_def;
3838
handle_legacy(t_config_option_key & opt_key,std::string & value) const3839 void DynamicPrintAndCLIConfig::handle_legacy(t_config_option_key &opt_key, std::string &value) const
3840 {
3841 if (cli_actions_config_def .options.find(opt_key) == cli_actions_config_def .options.end() &&
3842 cli_transform_config_def.options.find(opt_key) == cli_transform_config_def.options.end() &&
3843 cli_misc_config_def .options.find(opt_key) == cli_misc_config_def .options.end()) {
3844 PrintConfigDef::handle_legacy(opt_key, value);
3845 }
3846 }
3847
3848 uint64_t ModelConfig::s_last_timestamp = 1;
3849
to_points(const std::vector<Vec2d> & dpts)3850 static Points to_points(const std::vector<Vec2d> &dpts)
3851 {
3852 Points pts; pts.reserve(dpts.size());
3853 for (auto &v : dpts)
3854 pts.emplace_back( coord_t(scale_(v.x())), coord_t(scale_(v.y())) );
3855 return pts;
3856 }
3857
get_bed_shape(const DynamicPrintConfig & config)3858 Points get_bed_shape(const DynamicPrintConfig &config)
3859 {
3860 const auto *bed_shape_opt = config.opt<ConfigOptionPoints>("bed_shape");
3861 if (!bed_shape_opt) {
3862
3863 // Here, it is certain that the bed shape is missing, so an infinite one
3864 // has to be used, but still, the center of bed can be queried
3865 if (auto center_opt = config.opt<ConfigOptionPoint>("center"))
3866 return { scaled(center_opt->value) };
3867
3868 return {};
3869 }
3870
3871 return to_points(bed_shape_opt->values);
3872 }
3873
get_bed_shape(const PrintConfig & cfg)3874 Points get_bed_shape(const PrintConfig &cfg)
3875 {
3876 return to_points(cfg.bed_shape.values);
3877 }
3878
get_bed_shape(const SLAPrinterConfig & cfg)3879 Points get_bed_shape(const SLAPrinterConfig &cfg) { return to_points(cfg.bed_shape.values); }
3880
3881 } // namespace Slic3r
3882
3883 #include <cereal/types/polymorphic.hpp>
3884 CEREAL_REGISTER_TYPE(Slic3r::DynamicPrintConfig)
3885 CEREAL_REGISTER_POLYMORPHIC_RELATION(Slic3r::DynamicConfig, Slic3r::DynamicPrintConfig)
3886