Commit | Line | Data |
---|---|---|
df27a6a3 | 1 | /* |
201bcb94 AW |
2 | This file is part of Smoothie (http://smoothieware.org/). The motion control part is heavily based on Grbl (https://github.com/simen/grbl). |
3 | Smoothie is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. | |
4 | Smoothie is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. | |
df27a6a3 | 5 | You should have received a copy of the GNU General Public License along with Smoothie. If not, see <http://www.gnu.org/licenses/>. |
201bcb94 AW |
6 | */ |
7 | ||
8 | #include "libs/Module.h" | |
9 | #include "libs/Kernel.h" | |
10 | #include "modules/communication/utils/Gcode.h" | |
3fceb8eb | 11 | #include "modules/robot/Conveyor.h" |
807b9b57 | 12 | #include "modules/robot/ActuatorCoordinates.h" |
201bcb94 AW |
13 | #include "Endstops.h" |
14 | #include "libs/nuts_bolts.h" | |
750277f8 | 15 | #include "libs/Pin.h" |
670fa10b | 16 | #include "libs/StepperMotor.h" |
201bcb94 | 17 | #include "wait_api.h" // mbed.h lib |
61134a65 JM |
18 | #include "Robot.h" |
19 | #include "Stepper.h" | |
20 | #include "Config.h" | |
21 | #include "SlowTicker.h" | |
22 | #include "Planner.h" | |
7af0714f JM |
23 | #include "checksumm.h" |
24 | #include "utils.h" | |
8d54c34c | 25 | #include "ConfigValue.h" |
fc7b9a7b | 26 | #include "libs/StreamOutput.h" |
9f6f04a5 JM |
27 | #include "PublicDataRequest.h" |
28 | #include "EndstopsPublicAccess.h" | |
3c947f85 | 29 | #include "StreamOutputPool.h" |
a157d099 | 30 | #include "StepTicker.h" |
7552475b | 31 | #include "BaseSolution.h" |
e551657a | 32 | #include "SerialMessage.h" |
201bcb94 | 33 | |
80605954 JM |
34 | #include <ctype.h> |
35 | ||
33e4cc02 JM |
36 | #define ALPHA_AXIS 0 |
37 | #define BETA_AXIS 1 | |
38 | #define GAMMA_AXIS 2 | |
9a993543 JM |
39 | #define X_AXIS 0 |
40 | #define Y_AXIS 1 | |
41 | #define Z_AXIS 2 | |
33e4cc02 | 42 | |
33e4cc02 JM |
43 | #define endstops_module_enable_checksum CHECKSUM("endstops_enable") |
44 | #define corexy_homing_checksum CHECKSUM("corexy_homing") | |
45 | #define delta_homing_checksum CHECKSUM("delta_homing") | |
11a39396 | 46 | #define rdelta_homing_checksum CHECKSUM("rdelta_homing") |
3e1f5b74 | 47 | #define scara_homing_checksum CHECKSUM("scara_homing") |
33e4cc02 JM |
48 | |
49 | #define alpha_min_endstop_checksum CHECKSUM("alpha_min_endstop") | |
50 | #define beta_min_endstop_checksum CHECKSUM("beta_min_endstop") | |
51 | #define gamma_min_endstop_checksum CHECKSUM("gamma_min_endstop") | |
52 | ||
53 | #define alpha_max_endstop_checksum CHECKSUM("alpha_max_endstop") | |
54 | #define beta_max_endstop_checksum CHECKSUM("beta_max_endstop") | |
55 | #define gamma_max_endstop_checksum CHECKSUM("gamma_max_endstop") | |
56 | ||
57 | #define alpha_trim_checksum CHECKSUM("alpha_trim") | |
58 | #define beta_trim_checksum CHECKSUM("beta_trim") | |
59 | #define gamma_trim_checksum CHECKSUM("gamma_trim") | |
60 | ||
61 | // these values are in steps and should be deprecated | |
62 | #define alpha_fast_homing_rate_checksum CHECKSUM("alpha_fast_homing_rate") | |
63 | #define beta_fast_homing_rate_checksum CHECKSUM("beta_fast_homing_rate") | |
64 | #define gamma_fast_homing_rate_checksum CHECKSUM("gamma_fast_homing_rate") | |
65 | ||
66 | #define alpha_slow_homing_rate_checksum CHECKSUM("alpha_slow_homing_rate") | |
67 | #define beta_slow_homing_rate_checksum CHECKSUM("beta_slow_homing_rate") | |
68 | #define gamma_slow_homing_rate_checksum CHECKSUM("gamma_slow_homing_rate") | |
69 | ||
70 | #define alpha_homing_retract_checksum CHECKSUM("alpha_homing_retract") | |
71 | #define beta_homing_retract_checksum CHECKSUM("beta_homing_retract") | |
72 | #define gamma_homing_retract_checksum CHECKSUM("gamma_homing_retract") | |
33e4cc02 JM |
73 | |
74 | // same as above but in user friendly mm/s and mm | |
75 | #define alpha_fast_homing_rate_mm_checksum CHECKSUM("alpha_fast_homing_rate_mm_s") | |
76 | #define beta_fast_homing_rate_mm_checksum CHECKSUM("beta_fast_homing_rate_mm_s") | |
77 | #define gamma_fast_homing_rate_mm_checksum CHECKSUM("gamma_fast_homing_rate_mm_s") | |
78 | ||
79 | #define alpha_slow_homing_rate_mm_checksum CHECKSUM("alpha_slow_homing_rate_mm_s") | |
80 | #define beta_slow_homing_rate_mm_checksum CHECKSUM("beta_slow_homing_rate_mm_s") | |
81 | #define gamma_slow_homing_rate_mm_checksum CHECKSUM("gamma_slow_homing_rate_mm_s") | |
82 | ||
83 | #define alpha_homing_retract_mm_checksum CHECKSUM("alpha_homing_retract_mm") | |
84 | #define beta_homing_retract_mm_checksum CHECKSUM("beta_homing_retract_mm") | |
85 | #define gamma_homing_retract_mm_checksum CHECKSUM("gamma_homing_retract_mm") | |
86 | ||
87 | #define endstop_debounce_count_checksum CHECKSUM("endstop_debounce_count") | |
88 | ||
89 | #define alpha_homing_direction_checksum CHECKSUM("alpha_homing_direction") | |
90 | #define beta_homing_direction_checksum CHECKSUM("beta_homing_direction") | |
91 | #define gamma_homing_direction_checksum CHECKSUM("gamma_homing_direction") | |
92 | #define home_to_max_checksum CHECKSUM("home_to_max") | |
93 | #define home_to_min_checksum CHECKSUM("home_to_min") | |
94 | #define alpha_min_checksum CHECKSUM("alpha_min") | |
95 | #define beta_min_checksum CHECKSUM("beta_min") | |
96 | #define gamma_min_checksum CHECKSUM("gamma_min") | |
97 | ||
98 | #define alpha_max_checksum CHECKSUM("alpha_max") | |
99 | #define beta_max_checksum CHECKSUM("beta_max") | |
100 | #define gamma_max_checksum CHECKSUM("gamma_max") | |
101 | ||
3c947f85 JM |
102 | #define alpha_limit_enable_checksum CHECKSUM("alpha_limit_enable") |
103 | #define beta_limit_enable_checksum CHECKSUM("beta_limit_enable") | |
104 | #define gamma_limit_enable_checksum CHECKSUM("gamma_limit_enable") | |
105 | ||
80605954 | 106 | #define homing_order_checksum CHECKSUM("homing_order") |
2ddf75fd | 107 | #define move_to_origin_checksum CHECKSUM("move_to_origin_after_home") |
80605954 | 108 | |
dd0a7cfa JM |
109 | #define STEPPER THEKERNEL->robot->actuators |
110 | #define STEPS_PER_MM(a) (STEPPER[a]->get_steps_per_mm()) | |
56ce2b5a | 111 | |
2b3cedc7 | 112 | |
3c947f85 | 113 | // Homing States |
e714bd32 | 114 | enum { |
2ddf75fd JM |
115 | MOVING_TO_ENDSTOP_FAST, // homing move |
116 | MOVING_BACK, // homing move | |
117 | MOVING_TO_ENDSTOP_SLOW, // homing move | |
fafb45df | 118 | NOT_HOMING, |
3c947f85 | 119 | BACK_OFF_HOME, |
2ddf75fd | 120 | MOVE_TO_ORIGIN, |
3c947f85 JM |
121 | LIMIT_TRIGGERED |
122 | }; | |
123 | ||
33e4cc02 JM |
124 | Endstops::Endstops() |
125 | { | |
201bcb94 | 126 | this->status = NOT_HOMING; |
33e4cc02 | 127 | home_offset[0] = home_offset[1] = home_offset[2] = 0.0F; |
201bcb94 AW |
128 | } |
129 | ||
33e4cc02 JM |
130 | void Endstops::on_module_loaded() |
131 | { | |
7dee696d | 132 | // Do not do anything if not enabled |
314ab8f7 | 133 | if ( THEKERNEL->config->value( endstops_module_enable_checksum )->by_default(true)->as_bool() == false ) { |
4e722c00 | 134 | delete this; |
33e4cc02 JM |
135 | return; |
136 | } | |
7d62445b | 137 | |
9f6f04a5 JM |
138 | register_for_event(ON_GCODE_RECEIVED); |
139 | register_for_event(ON_GET_PUBLIC_DATA); | |
7d6fe308 | 140 | register_for_event(ON_SET_PUBLIC_DATA); |
201bcb94 | 141 | |
e714bd32 | 142 | THEKERNEL->step_ticker->register_acceleration_tick_handler([this]() {acceleration_tick(); }); |
201bcb94 | 143 | |
750277f8 AW |
144 | // Settings |
145 | this->on_config_reload(this); | |
201bcb94 AW |
146 | } |
147 | ||
750277f8 | 148 | // Get config |
33e4cc02 JM |
149 | void Endstops::on_config_reload(void *argument) |
150 | { | |
56ce2b5a JM |
151 | this->pins[0].from_string( THEKERNEL->config->value(alpha_min_endstop_checksum )->by_default("nc" )->as_string())->as_input(); |
152 | this->pins[1].from_string( THEKERNEL->config->value(beta_min_endstop_checksum )->by_default("nc" )->as_string())->as_input(); | |
153 | this->pins[2].from_string( THEKERNEL->config->value(gamma_min_endstop_checksum )->by_default("nc" )->as_string())->as_input(); | |
154 | this->pins[3].from_string( THEKERNEL->config->value(alpha_max_endstop_checksum )->by_default("nc" )->as_string())->as_input(); | |
155 | this->pins[4].from_string( THEKERNEL->config->value(beta_max_endstop_checksum )->by_default("nc" )->as_string())->as_input(); | |
156 | this->pins[5].from_string( THEKERNEL->config->value(gamma_max_endstop_checksum )->by_default("nc" )->as_string())->as_input(); | |
157 | ||
158 | // These are the old ones in steps still here for backwards compatibility | |
159 | this->fast_rates[0] = THEKERNEL->config->value(alpha_fast_homing_rate_checksum )->by_default(4000 )->as_number() / STEPS_PER_MM(0); | |
160 | this->fast_rates[1] = THEKERNEL->config->value(beta_fast_homing_rate_checksum )->by_default(4000 )->as_number() / STEPS_PER_MM(1); | |
161 | this->fast_rates[2] = THEKERNEL->config->value(gamma_fast_homing_rate_checksum )->by_default(6400 )->as_number() / STEPS_PER_MM(2); | |
162 | this->slow_rates[0] = THEKERNEL->config->value(alpha_slow_homing_rate_checksum )->by_default(2000 )->as_number() / STEPS_PER_MM(0); | |
163 | this->slow_rates[1] = THEKERNEL->config->value(beta_slow_homing_rate_checksum )->by_default(2000 )->as_number() / STEPS_PER_MM(1); | |
164 | this->slow_rates[2] = THEKERNEL->config->value(gamma_slow_homing_rate_checksum )->by_default(3200 )->as_number() / STEPS_PER_MM(2); | |
165 | this->retract_mm[0] = THEKERNEL->config->value(alpha_homing_retract_checksum )->by_default(400 )->as_number() / STEPS_PER_MM(0); | |
166 | this->retract_mm[1] = THEKERNEL->config->value(beta_homing_retract_checksum )->by_default(400 )->as_number() / STEPS_PER_MM(1); | |
167 | this->retract_mm[2] = THEKERNEL->config->value(gamma_homing_retract_checksum )->by_default(1600 )->as_number() / STEPS_PER_MM(2); | |
5de98d7c JM |
168 | |
169 | // newer mm based config values override the old ones, convert to steps/mm and steps, defaults to what was set in the older config settings above | |
56ce2b5a JM |
170 | this->fast_rates[0] = THEKERNEL->config->value(alpha_fast_homing_rate_mm_checksum )->by_default(this->fast_rates[0])->as_number(); |
171 | this->fast_rates[1] = THEKERNEL->config->value(beta_fast_homing_rate_mm_checksum )->by_default(this->fast_rates[1])->as_number(); | |
172 | this->fast_rates[2] = THEKERNEL->config->value(gamma_fast_homing_rate_mm_checksum )->by_default(this->fast_rates[2])->as_number(); | |
173 | this->slow_rates[0] = THEKERNEL->config->value(alpha_slow_homing_rate_mm_checksum )->by_default(this->slow_rates[0])->as_number(); | |
174 | this->slow_rates[1] = THEKERNEL->config->value(beta_slow_homing_rate_mm_checksum )->by_default(this->slow_rates[1])->as_number(); | |
175 | this->slow_rates[2] = THEKERNEL->config->value(gamma_slow_homing_rate_mm_checksum )->by_default(this->slow_rates[2])->as_number(); | |
176 | this->retract_mm[0] = THEKERNEL->config->value(alpha_homing_retract_mm_checksum )->by_default(this->retract_mm[0])->as_number(); | |
177 | this->retract_mm[1] = THEKERNEL->config->value(beta_homing_retract_mm_checksum )->by_default(this->retract_mm[1])->as_number(); | |
178 | this->retract_mm[2] = THEKERNEL->config->value(gamma_homing_retract_mm_checksum )->by_default(this->retract_mm[2])->as_number(); | |
5de98d7c | 179 | |
06c48ee8 | 180 | this->debounce_count = THEKERNEL->config->value(endstop_debounce_count_checksum )->by_default(100)->as_number(); |
5de98d7c | 181 | |
409ff5b3 | 182 | // get homing direction and convert to boolean where true is home to min, and false is home to max |
314ab8f7 | 183 | int home_dir = get_checksum(THEKERNEL->config->value(alpha_homing_direction_checksum)->by_default("home_to_min")->as_string()); |
eb09fdbf | 184 | this->home_direction[0] = home_dir != home_to_max_checksum; |
47bbe224 | 185 | |
314ab8f7 | 186 | home_dir = get_checksum(THEKERNEL->config->value(beta_homing_direction_checksum)->by_default("home_to_min")->as_string()); |
eb09fdbf | 187 | this->home_direction[1] = home_dir != home_to_max_checksum; |
47bbe224 | 188 | |
314ab8f7 | 189 | home_dir = get_checksum(THEKERNEL->config->value(gamma_homing_direction_checksum)->by_default("home_to_min")->as_string()); |
eb09fdbf | 190 | this->home_direction[2] = home_dir != home_to_max_checksum; |
47bbe224 | 191 | |
314ab8f7 | 192 | this->homing_position[0] = this->home_direction[0] ? THEKERNEL->config->value(alpha_min_checksum)->by_default(0)->as_number() : THEKERNEL->config->value(alpha_max_checksum)->by_default(200)->as_number(); |
f3b66360 JM |
193 | this->homing_position[1] = this->home_direction[1] ? THEKERNEL->config->value(beta_min_checksum )->by_default(0)->as_number() : THEKERNEL->config->value(beta_max_checksum )->by_default(200)->as_number(); |
194 | this->homing_position[2] = this->home_direction[2] ? THEKERNEL->config->value(gamma_min_checksum)->by_default(0)->as_number() : THEKERNEL->config->value(gamma_max_checksum)->by_default(200)->as_number(); | |
f29b0272 | 195 | |
314ab8f7 MM |
196 | this->is_corexy = THEKERNEL->config->value(corexy_homing_checksum)->by_default(false)->as_bool(); |
197 | this->is_delta = THEKERNEL->config->value(delta_homing_checksum)->by_default(false)->as_bool(); | |
11a39396 | 198 | this->is_rdelta = THEKERNEL->config->value(rdelta_homing_checksum)->by_default(false)->as_bool(); |
504f0e3e JM |
199 | this->is_scara = THEKERNEL->config->value(scara_homing_checksum)->by_default(false)->as_bool(); |
200 | ||
80605954 | 201 | // see if an order has been specified, must be three characters, XYZ or YXZ etc |
e714bd32 JM |
202 | string order = THEKERNEL->config->value(homing_order_checksum)->by_default("")->as_string(); |
203 | this->homing_order = 0; | |
80605954 | 204 | if(order.size() == 3 && !this->is_delta) { |
e714bd32 | 205 | int shift = 0; |
80605954 | 206 | for(auto c : order) { |
e714bd32 | 207 | uint8_t i = toupper(c) - 'X'; |
80605954 | 208 | if(i > 2) { // bad value |
e714bd32 | 209 | this->homing_order = 0; |
80605954 JM |
210 | break; |
211 | } | |
212 | homing_order |= (i << shift); | |
213 | shift += 2; | |
214 | } | |
215 | } | |
216 | ||
192bca32 JM |
217 | // endstop trim used by deltas to do soft adjusting |
218 | // on a delta homing to max, a negative trim value will move the carriage down, and a positive will move it up | |
219 | this->trim_mm[0] = THEKERNEL->config->value(alpha_trim_checksum )->by_default(0 )->as_number(); | |
220 | this->trim_mm[1] = THEKERNEL->config->value(beta_trim_checksum )->by_default(0 )->as_number(); | |
221 | this->trim_mm[2] = THEKERNEL->config->value(gamma_trim_checksum )->by_default(0 )->as_number(); | |
3c947f85 JM |
222 | |
223 | // limits enabled | |
e714bd32 JM |
224 | this->limit_enable[X_AXIS] = THEKERNEL->config->value(alpha_limit_enable_checksum)->by_default(false)->as_bool(); |
225 | this->limit_enable[Y_AXIS] = THEKERNEL->config->value(beta_limit_enable_checksum)->by_default(false)->as_bool(); | |
226 | this->limit_enable[Z_AXIS] = THEKERNEL->config->value(gamma_limit_enable_checksum)->by_default(false)->as_bool(); | |
3c947f85 | 227 | |
42bbc035 | 228 | // set to true by default for deltas duwe to trim, false on cartesians |
e714bd32 | 229 | this->move_to_origin_after_home = THEKERNEL->config->value(move_to_origin_checksum)->by_default(is_delta)->as_bool(); |
2b3cedc7 | 230 | |
e714bd32 | 231 | if(this->limit_enable[X_AXIS] || this->limit_enable[Y_AXIS] || this->limit_enable[Z_AXIS]) { |
3c947f85 | 232 | register_for_event(ON_IDLE); |
7f3e6350 JM |
233 | if(this->is_delta) { |
234 | // we must enable all the limits not just one | |
e714bd32 JM |
235 | this->limit_enable[X_AXIS] = true; |
236 | this->limit_enable[Y_AXIS] = true; | |
237 | this->limit_enable[Z_AXIS] = true; | |
7f3e6350 | 238 | } |
3c947f85 | 239 | } |
44127aca | 240 | |
11a39396 JM |
241 | // |
242 | if(this->is_delta || this->is_rdelta) { | |
44127aca | 243 | // some things must be the same or they will die, so force it here to avoid config errors |
e714bd32 JM |
244 | this->fast_rates[1] = this->fast_rates[2] = this->fast_rates[0]; |
245 | this->slow_rates[1] = this->slow_rates[2] = this->slow_rates[0]; | |
246 | this->retract_mm[1] = this->retract_mm[2] = this->retract_mm[0]; | |
247 | this->home_direction[1] = this->home_direction[2] = this->home_direction[0]; | |
42bbc035 JM |
248 | // NOTE homing_position for rdelta is the angle of the actuator not the cartesian position |
249 | if(!this->is_rdelta) this->homing_position[0] = this->homing_position[1] = 0; | |
44127aca | 250 | } |
3c947f85 JM |
251 | } |
252 | ||
28166daf JM |
253 | bool Endstops::debounced_get(int pin) |
254 | { | |
e714bd32 | 255 | uint8_t debounce = 0; |
28166daf JM |
256 | while(this->pins[pin].get()) { |
257 | if ( ++debounce >= this->debounce_count ) { | |
258 | // pin triggered | |
259 | return true; | |
260 | } | |
261 | } | |
262 | return false; | |
263 | } | |
264 | ||
e714bd32 | 265 | static const char *endstop_names[] = {"min_x", "min_y", "min_z", "max_x", "max_y", "max_z"}; |
3c947f85 JM |
266 | |
267 | void Endstops::on_idle(void *argument) | |
268 | { | |
c3d7feb6 JM |
269 | if(this->status == LIMIT_TRIGGERED) { |
270 | // if we were in limit triggered see if it has been cleared | |
271 | for( int c = X_AXIS; c <= Z_AXIS; c++ ) { | |
272 | if(this->limit_enable[c]) { | |
273 | std::array<int, 2> minmax{{0, 3}}; | |
274 | // check min and max endstops | |
275 | for (int i : minmax) { | |
e714bd32 | 276 | int n = c + i; |
c3d7feb6 JM |
277 | if(this->pins[n].get()) { |
278 | // still triggered, so exit | |
e714bd32 | 279 | bounce_cnt = 0; |
c3d7feb6 JM |
280 | return; |
281 | } | |
282 | } | |
283 | } | |
284 | } | |
ee1c3181 JM |
285 | if(++bounce_cnt > 10) { // can use less as it calls on_idle in between |
286 | // clear the state | |
e714bd32 | 287 | this->status = NOT_HOMING; |
ee1c3181 | 288 | } |
4befe777 | 289 | return; |
c3d7feb6 | 290 | |
e714bd32 | 291 | } else if(this->status != NOT_HOMING) { |
c3d7feb6 JM |
292 | // don't check while homing |
293 | return; | |
294 | } | |
3c947f85 JM |
295 | |
296 | for( int c = X_AXIS; c <= Z_AXIS; c++ ) { | |
297 | if(this->limit_enable[c] && STEPPER[c]->is_moving()) { | |
298 | std::array<int, 2> minmax{{0, 3}}; | |
299 | // check min and max endstops | |
300 | for (int i : minmax) { | |
e714bd32 | 301 | int n = c + i; |
28166daf JM |
302 | if(debounced_get(n)) { |
303 | // endstop triggered | |
304 | THEKERNEL->streams->printf("Limit switch %s was hit - reset or M999 required\n", endstop_names[n]); | |
e714bd32 | 305 | this->status = LIMIT_TRIGGERED; |
28166daf JM |
306 | // disables heaters and motors, ignores incoming Gcode and flushes block queue |
307 | THEKERNEL->call_event(ON_HALT, nullptr); | |
308 | return; | |
3c947f85 JM |
309 | } |
310 | } | |
311 | } | |
312 | } | |
313 | } | |
314 | ||
315 | // if limit switches are enabled, then we must move off of the endstop otherwise we won't be able to move | |
5bfcd44a JM |
316 | // checks if triggered and only backs off if triggered |
317 | void Endstops::back_off_home(char axes_to_move) | |
3c947f85 | 318 | { |
e714bd32 | 319 | std::vector<std::pair<char, float>> params; |
3c947f85 | 320 | this->status = BACK_OFF_HOME; |
7f3e6350 JM |
321 | |
322 | // these are handled differently | |
1a6870b3 | 323 | if(is_delta) { |
7f3e6350 | 324 | // Move off of the endstop using a regular relative move in Z only |
e714bd32 | 325 | params.push_back({'Z', this->retract_mm[Z_AXIS] * (this->home_direction[Z_AXIS] ? 1 : -1)}); |
44127aca | 326 | |
e714bd32 | 327 | } else { |
7f3e6350 | 328 | // cartesians, concatenate all the moves we need to do into one gcode |
44127aca JM |
329 | for( int c = X_AXIS; c <= Z_AXIS; c++ ) { |
330 | if( ((axes_to_move >> c ) & 1) == 0) continue; // only for axes we asked to move | |
7f3e6350 JM |
331 | |
332 | // if not triggered no need to move off | |
28166daf | 333 | if(this->limit_enable[c] && debounced_get(c + (this->home_direction[c] ? 0 : 3)) ) { |
e714bd32 | 334 | params.push_back({c + 'X', this->retract_mm[c] * (this->home_direction[c] ? 1 : -1)}); |
44127aca | 335 | } |
3c947f85 JM |
336 | } |
337 | } | |
7f3e6350 JM |
338 | |
339 | if(!params.empty()) { | |
340 | // Move off of the endstop using a regular relative move | |
7c801094 | 341 | params.insert(params.begin(), {'G', 0}); |
7f3e6350 | 342 | // use X slow rate to move, Z should have a max speed set anyway |
e714bd32 | 343 | params.push_back({'F', this->slow_rates[X_AXIS] * 60.0F}); |
7c801094 JM |
344 | char gcode_buf[64]; |
345 | append_parameters(gcode_buf, params, sizeof(gcode_buf)); | |
7f3e6350 | 346 | Gcode gc(gcode_buf, &(StreamOutput::NullStream)); |
e714bd32 JM |
347 | bool oldmode = THEKERNEL->robot->absolute_mode; |
348 | THEKERNEL->robot->absolute_mode = false; // needs to be relative mode | |
7f3e6350 | 349 | THEKERNEL->robot->on_gcode_received(&gc); // send to robot directly |
e714bd32 | 350 | THEKERNEL->robot->absolute_mode = oldmode; // restore mode |
7f3e6350 JM |
351 | // Wait for above to finish |
352 | THEKERNEL->conveyor->wait_for_empty_queue(); | |
353 | } | |
354 | ||
3c947f85 | 355 | this->status = NOT_HOMING; |
a0e0d592 BG |
356 | } |
357 | ||
2b3cedc7 | 358 | // If enabled will move the head to 0,0 after homing, but only if X and Y were set to home |
2ddf75fd | 359 | void Endstops::move_to_origin(char axes_to_move) |
2b3cedc7 | 360 | { |
e714bd32 | 361 | if( (axes_to_move & 0x03) != 3 ) return; // ignore if X and Y not homing |
2b3cedc7 | 362 | |
fafb45df JM |
363 | // Do we need to check if we are already at 0,0? probably not as the G0 will not do anything if we are |
364 | // float pos[3]; THEKERNEL->robot->get_axis_position(pos); if(pos[0] == 0 && pos[1] == 0) return; | |
365 | ||
2ddf75fd | 366 | this->status = MOVE_TO_ORIGIN; |
2b3cedc7 | 367 | // Move to center using a regular move, use slower of X and Y fast rate |
e714bd32 | 368 | float rate = std::min(this->fast_rates[0], this->fast_rates[1]) * 60.0F; |
2b3cedc7 | 369 | char buf[32]; |
e551657a JM |
370 | snprintf(buf, sizeof(buf), "G53 G0 X0 Y0 F%1.4f", rate); // must use machine coordinates in case G92 or WCS is in effect |
371 | struct SerialMessage message; | |
372 | message.message = buf; | |
373 | message.stream = &(StreamOutput::NullStream); | |
374 | THEKERNEL->call_event(ON_CONSOLE_LINE_RECEIVED, &message ); // as it is a multi G code command | |
2b3cedc7 JM |
375 | // Wait for above to finish |
376 | THEKERNEL->conveyor->wait_for_empty_queue(); | |
377 | this->status = NOT_HOMING; | |
378 | } | |
379 | ||
798295c1 | 380 | bool Endstops::wait_for_homed(char axes_to_move) |
33e4cc02 | 381 | { |
a0e0d592 | 382 | bool running = true; |
33e4cc02 JM |
383 | unsigned int debounce[3] = {0, 0, 0}; |
384 | while (running) { | |
a0e0d592 | 385 | running = false; |
314ab8f7 | 386 | THEKERNEL->call_event(ON_IDLE); |
798295c1 JM |
387 | |
388 | // check if on_halt (eg kill) | |
73706276 | 389 | if(THEKERNEL->is_halted()) return false; |
798295c1 | 390 | |
56ce2b5a JM |
391 | for ( int c = X_AXIS; c <= Z_AXIS; c++ ) { |
392 | if ( ( axes_to_move >> c ) & 1 ) { | |
393 | if ( this->pins[c + (this->home_direction[c] ? 0 : 3)].get() ) { | |
394 | if ( debounce[c] < debounce_count ) { | |
395 | debounce[c]++; | |
a0e0d592 | 396 | running = true; |
dd0a7cfa JM |
397 | } else if ( STEPPER[c]->is_moving() ) { |
398 | STEPPER[c]->move(0, 0); | |
e714bd32 | 399 | axes_to_move &= ~(1 << c); // no need to check it again |
a0e0d592 | 400 | } |
33e4cc02 | 401 | } else { |
a0e0d592 BG |
402 | // The endstop was not hit yet |
403 | running = true; | |
56ce2b5a | 404 | debounce[c] = 0; |
323cca60 | 405 | } |
a0e0d592 BG |
406 | } |
407 | } | |
408 | } | |
798295c1 | 409 | return true; |
750277f8 | 410 | } |
201bcb94 | 411 | |
81f02e89 | 412 | void Endstops::do_homing_cartesian(char axes_to_move) |
33e4cc02 | 413 | { |
798295c1 | 414 | // check if on_halt (eg kill) |
73706276 | 415 | if(THEKERNEL->is_halted()) return; |
798295c1 | 416 | |
80605954 | 417 | // this homing works for cartesian and delta printers |
f29b0272 | 418 | // Start moving the axes to the origin |
2ddf75fd | 419 | this->status = MOVING_TO_ENDSTOP_FAST; |
56ce2b5a JM |
420 | for ( int c = X_AXIS; c <= Z_AXIS; c++ ) { |
421 | if ( ( axes_to_move >> c) & 1 ) { | |
e714bd32 | 422 | this->feed_rate[c] = this->fast_rates[c]; |
6f6677fc | 423 | STEPPER[c]->move(this->home_direction[c], 10000000, 0); |
f29b0272 JM |
424 | } |
425 | } | |
426 | ||
427 | // Wait for all axes to have homed | |
798295c1 | 428 | if(!this->wait_for_homed(axes_to_move)) return; |
f29b0272 JM |
429 | |
430 | // Move back a small distance | |
431 | this->status = MOVING_BACK; | |
432 | bool inverted_dir; | |
56ce2b5a JM |
433 | for ( int c = X_AXIS; c <= Z_AXIS; c++ ) { |
434 | if ( ( axes_to_move >> c ) & 1 ) { | |
435 | inverted_dir = !this->home_direction[c]; | |
e714bd32 | 436 | this->feed_rate[c] = this->slow_rates[c]; |
6f6677fc | 437 | STEPPER[c]->move(inverted_dir, this->retract_mm[c]*STEPS_PER_MM(c), 0); |
f29b0272 JM |
438 | } |
439 | } | |
440 | ||
33e4cc02 | 441 | // Wait for moves to be done |
56ce2b5a JM |
442 | for ( int c = X_AXIS; c <= Z_AXIS; c++ ) { |
443 | if ( ( axes_to_move >> c ) & 1 ) { | |
dd0a7cfa | 444 | while ( STEPPER[c]->is_moving() ) { |
314ab8f7 | 445 | THEKERNEL->call_event(ON_IDLE); |
ca287785 | 446 | if(THEKERNEL->is_halted()) return; |
f29b0272 JM |
447 | } |
448 | } | |
449 | } | |
450 | ||
451 | // Start moving the axes to the origin slowly | |
2ddf75fd | 452 | this->status = MOVING_TO_ENDSTOP_SLOW; |
56ce2b5a JM |
453 | for ( int c = X_AXIS; c <= Z_AXIS; c++ ) { |
454 | if ( ( axes_to_move >> c ) & 1 ) { | |
e714bd32 | 455 | this->feed_rate[c] = this->slow_rates[c]; |
6f6677fc | 456 | STEPPER[c]->move(this->home_direction[c], 10000000, 0); |
f29b0272 JM |
457 | } |
458 | } | |
459 | ||
460 | // Wait for all axes to have homed | |
798295c1 | 461 | if(!this->wait_for_homed(axes_to_move)) return; |
f29b0272 JM |
462 | } |
463 | ||
798295c1 | 464 | bool Endstops::wait_for_homed_corexy(int axis) |
33e4cc02 | 465 | { |
3db88866 | 466 | bool running = true; |
33e4cc02 JM |
467 | unsigned int debounce[3] = {0, 0, 0}; |
468 | while (running) { | |
3db88866 | 469 | running = false; |
314ab8f7 | 470 | THEKERNEL->call_event(ON_IDLE); |
798295c1 JM |
471 | |
472 | // check if on_halt (eg kill) | |
73706276 | 473 | if(THEKERNEL->is_halted()) return false; |
798295c1 | 474 | |
33e4cc02 JM |
475 | if ( this->pins[axis + (this->home_direction[axis] ? 0 : 3)].get() ) { |
476 | if ( debounce[axis] < debounce_count ) { | |
3db88866 JM |
477 | debounce[axis] ++; |
478 | running = true; | |
479 | } else { | |
480 | // turn both off if running | |
dd0a7cfa JM |
481 | if (STEPPER[X_AXIS]->is_moving()) STEPPER[X_AXIS]->move(0, 0); |
482 | if (STEPPER[Y_AXIS]->is_moving()) STEPPER[Y_AXIS]->move(0, 0); | |
3db88866 | 483 | } |
33e4cc02 | 484 | } else { |
3db88866 JM |
485 | // The endstop was not hit yet |
486 | running = true; | |
487 | debounce[axis] = 0; | |
488 | } | |
489 | } | |
798295c1 | 490 | return true; |
3db88866 JM |
491 | } |
492 | ||
1ad23cd3 | 493 | void Endstops::corexy_home(int home_axis, bool dirx, bool diry, float fast_rate, float slow_rate, unsigned int retract_steps) |
33e4cc02 | 494 | { |
798295c1 | 495 | // check if on_halt (eg kill) |
73706276 | 496 | if(THEKERNEL->is_halted()) return; |
798295c1 | 497 | |
2ddf75fd | 498 | this->status = MOVING_TO_ENDSTOP_FAST; |
e714bd32 | 499 | this->feed_rate[X_AXIS] = fast_rate; |
6f6677fc | 500 | STEPPER[X_AXIS]->move(dirx, 10000000, 0); |
e714bd32 | 501 | this->feed_rate[Y_AXIS] = fast_rate; |
6f6677fc | 502 | STEPPER[Y_AXIS]->move(diry, 10000000, 0); |
f29b0272 | 503 | |
33e4cc02 | 504 | // wait for primary axis |
798295c1 | 505 | if(!this->wait_for_homed_corexy(home_axis)) return; |
f29b0272 | 506 | |
33e4cc02 JM |
507 | // Move back a small distance |
508 | this->status = MOVING_BACK; | |
e714bd32 | 509 | this->feed_rate[X_AXIS] = slow_rate; |
6f6677fc | 510 | STEPPER[X_AXIS]->move(!dirx, retract_steps, 0); |
e714bd32 | 511 | this->feed_rate[Y_AXIS] = slow_rate; |
6f6677fc | 512 | STEPPER[Y_AXIS]->move(!diry, retract_steps, 0); |
33e4cc02 JM |
513 | |
514 | // wait until done | |
dd0a7cfa | 515 | while ( STEPPER[X_AXIS]->is_moving() || STEPPER[Y_AXIS]->is_moving()) { |
314ab8f7 | 516 | THEKERNEL->call_event(ON_IDLE); |
ca287785 | 517 | if(THEKERNEL->is_halted()) return; |
f29b0272 JM |
518 | } |
519 | ||
33e4cc02 | 520 | // Start moving the axes to the origin slowly |
2ddf75fd | 521 | this->status = MOVING_TO_ENDSTOP_SLOW; |
e714bd32 | 522 | this->feed_rate[X_AXIS] = slow_rate; |
6f6677fc | 523 | STEPPER[X_AXIS]->move(dirx, 10000000, 0); |
e714bd32 | 524 | this->feed_rate[Y_AXIS] = slow_rate; |
6f6677fc | 525 | STEPPER[Y_AXIS]->move(diry, 10000000, 0); |
f29b0272 | 526 | |
33e4cc02 | 527 | // wait for primary axis |
798295c1 | 528 | if(!this->wait_for_homed_corexy(home_axis)) return; |
33e4cc02 | 529 | } |
f29b0272 | 530 | |
33e4cc02 JM |
531 | // this homing works for HBots/CoreXY |
532 | void Endstops::do_homing_corexy(char axes_to_move) | |
533 | { | |
03dffc07 | 534 | // TODO should really make order configurable, and select whether to allow XY to home at the same time, diagonally |
174d9961 | 535 | // To move XY at the same time only one motor needs to turn, determine which motor and which direction based on min or max directions |
03dffc07 | 536 | // allow to move until an endstop triggers, then stop that motor. Speed up when moving diagonally to match X or Y speed |
174d9961 | 537 | // continue moving in the direction not yet triggered (which means two motors turning) until endstop hit |
174d9961 JM |
538 | |
539 | if((axes_to_move & 0x03) == 0x03) { // both X and Y need Homing | |
540 | // determine which motor to turn and which way | |
e714bd32 JM |
541 | bool dirx = this->home_direction[X_AXIS]; |
542 | bool diry = this->home_direction[Y_AXIS]; | |
174d9961 JM |
543 | int motor; |
544 | bool dir; | |
545 | if(dirx && diry) { // min/min | |
e714bd32 JM |
546 | motor = X_AXIS; |
547 | dir = true; | |
548 | } else if(dirx && !diry) { // min/max | |
549 | motor = Y_AXIS; | |
550 | dir = true; | |
551 | } else if(!dirx && diry) { // max/min | |
552 | motor = Y_AXIS; | |
553 | dir = false; | |
554 | } else if(!dirx && !diry) { // max/max | |
555 | motor = X_AXIS; | |
556 | dir = false; | |
174d9961 JM |
557 | } |
558 | ||
559 | // then move both X and Y until one hits the endstop | |
2ddf75fd | 560 | this->status = MOVING_TO_ENDSTOP_FAST; |
e714bd32 JM |
561 | // need to allow for more ground covered when moving diagonally |
562 | this->feed_rate[motor] = this->fast_rates[motor] * 1.4142; | |
6f6677fc | 563 | STEPPER[motor]->move(dir, 10000000, 0); |
174d9961 | 564 | // wait until either X or Y hits the endstop |
e714bd32 | 565 | bool running = true; |
174d9961 | 566 | while (running) { |
314ab8f7 | 567 | THEKERNEL->call_event(ON_IDLE); |
ca287785 | 568 | if(THEKERNEL->is_halted()) return; |
e714bd32 | 569 | for(int m = X_AXIS; m <= Y_AXIS; m++) { |
174d9961 JM |
570 | if(this->pins[m + (this->home_direction[m] ? 0 : 3)].get()) { |
571 | // turn off motor | |
dd0a7cfa | 572 | if(STEPPER[motor]->is_moving()) STEPPER[motor]->move(0, 0); |
e714bd32 | 573 | running = false; |
174d9961 JM |
574 | break; |
575 | } | |
576 | } | |
577 | } | |
578 | } | |
33e4cc02 | 579 | |
174d9961 | 580 | // move individual axis |
33e4cc02 | 581 | if (axes_to_move & 0x01) { // Home X, which means both X and Y in same direction |
e714bd32 | 582 | bool dir = this->home_direction[X_AXIS]; |
56ce2b5a | 583 | corexy_home(X_AXIS, dir, dir, this->fast_rates[X_AXIS], this->slow_rates[X_AXIS], this->retract_mm[X_AXIS]*STEPS_PER_MM(X_AXIS)); |
f29b0272 JM |
584 | } |
585 | ||
65191d91 | 586 | if (axes_to_move & 0x02) { // Home Y, which means both X and Y in different directions |
e714bd32 | 587 | bool dir = this->home_direction[Y_AXIS]; |
56ce2b5a | 588 | corexy_home(Y_AXIS, dir, !dir, this->fast_rates[Y_AXIS], this->slow_rates[Y_AXIS], this->retract_mm[Y_AXIS]*STEPS_PER_MM(Y_AXIS)); |
65191d91 JM |
589 | } |
590 | ||
33e4cc02 | 591 | if (axes_to_move & 0x04) { // move Z |
81f02e89 | 592 | do_homing_cartesian(0x04); // just home normally for Z |
f29b0272 | 593 | } |
f29b0272 JM |
594 | } |
595 | ||
81f02e89 JM |
596 | void Endstops::home(char axes_to_move) |
597 | { | |
72833629 JM |
598 | // not a block move so disable the last tick setting |
599 | for ( int c = X_AXIS; c <= Z_AXIS; c++ ) { | |
600 | STEPPER[c]->set_moved_last_block(false); | |
601 | } | |
602 | ||
e714bd32 | 603 | if (is_corexy) { |
81f02e89 JM |
604 | // corexy/HBot homing |
605 | do_homing_corexy(axes_to_move); | |
e714bd32 | 606 | } else { |
81f02e89 JM |
607 | // cartesian/delta homing |
608 | do_homing_cartesian(axes_to_move); | |
609 | } | |
0058d8d4 JM |
610 | |
611 | // make sure all steppers are off (especially if aborted) | |
612 | for ( int c = X_AXIS; c <= Z_AXIS; c++ ) { | |
613 | STEPPER[c]->move(0, 0); | |
614 | } | |
ca287785 | 615 | this->status = NOT_HOMING; |
81f02e89 JM |
616 | } |
617 | ||
201bcb94 | 618 | // Start homing sequences by response to GCode commands |
33e4cc02 | 619 | void Endstops::on_gcode_received(void *argument) |
c339d634 | 620 | { |
33e4cc02 | 621 | Gcode *gcode = static_cast<Gcode *>(argument); |
e714bd32 JM |
622 | if ( gcode->has_g && gcode->g == 28) { |
623 | if( (gcode->subcode == 0 && THEKERNEL->is_grbl_mode()) || (gcode->subcode == 2 && !THEKERNEL->is_grbl_mode()) ) { | |
624 | // G28 in grbl mode or G28.2 in normal mode will do a rapid to the predefined position | |
625 | // TODO spec says if XYZ specified move to them first then move to MCS of specifed axis | |
626 | char buf[32]; | |
627 | snprintf(buf, sizeof(buf), "G53 G0 X%f Y%f", saved_position[X_AXIS], saved_position[Y_AXIS]); // must use machine coordinates in case G92 or WCS is in effect | |
628 | struct SerialMessage message; | |
629 | message.message = buf; | |
630 | message.stream = &(StreamOutput::NullStream); | |
631 | THEKERNEL->call_event(ON_CONSOLE_LINE_RECEIVED, &message ); // as it is a multi G code command | |
632 | return; | |
633 | ||
634 | } else if(THEKERNEL->is_grbl_mode() && gcode->subcode == 2) { // G28.2 in grbl mode forces homing (triggered by $H) | |
635 | // fall through so it does homing cycle | |
636 | ||
637 | } else if(gcode->subcode == 1) { // G28.1 set pre defined position | |
638 | // saves current position in absolute machine coordinates | |
639 | THEKERNEL->robot->get_axis_position(saved_position); | |
640 | return; | |
641 | ||
642 | } else if(gcode->subcode == 3) { // G28.3 is a smoothie special it sets manual homing | |
643 | if(gcode->get_num_args() == 0) { | |
644 | THEKERNEL->robot->reset_axis_position(0, 0, 0); | |
645 | } else { | |
586cc733 | 646 | // do a manual homing based on given coordinates, no endstops required |
e714bd32 JM |
647 | if(gcode->has_letter('X')) THEKERNEL->robot->reset_axis_position(gcode->get_value('X'), X_AXIS); |
648 | if(gcode->has_letter('Y')) THEKERNEL->robot->reset_axis_position(gcode->get_value('Y'), Y_AXIS); | |
649 | if(gcode->has_letter('Z')) THEKERNEL->robot->reset_axis_position(gcode->get_value('Z'), Z_AXIS); | |
cbf7b053 | 650 | } |
e714bd32 | 651 | return; |
6e92ab91 | 652 | |
586cc733 JM |
653 | } else if(gcode->subcode == 4) { // G28.4 is a smoothie special it sets manual homing based on the actuator position (used for rotary delta) |
654 | // do a manual homing based on given coordinates, no endstops required | |
655 | float a=NAN, b=NAN, c=NAN; | |
656 | if(gcode->has_letter('A')) a= gcode->get_value('A'); | |
657 | if(gcode->has_letter('B')) b= gcode->get_value('B'); | |
658 | if(gcode->has_letter('C')) c= gcode->get_value('C'); | |
659 | THEKERNEL->robot->reset_actuator_position(a, b, c); | |
660 | return; | |
661 | ||
e714bd32 JM |
662 | } else if(THEKERNEL->is_grbl_mode()) { |
663 | gcode->stream->printf("error:Unsupported command\n"); | |
664 | return; | |
665 | } | |
201bcb94 | 666 | |
e714bd32 | 667 | // G28 is received, we have homing to do |
201bcb94 | 668 | |
e714bd32 JM |
669 | // First wait for the queue to be empty |
670 | THEKERNEL->conveyor->wait_for_empty_queue(); | |
47bbe224 | 671 | |
e714bd32 JM |
672 | // Do we move select axes or all of them |
673 | char axes_to_move = 0; | |
674 | // only enable homing if the endstop is defined, deltas, scaras always home all axis | |
162f04e8 | 675 | bool home_all = this->is_delta || this->is_rdelta || this->is_scara || !( gcode->has_letter('X') || gcode->has_letter('Y') || gcode->has_letter('Z') ); |
e714bd32 JM |
676 | |
677 | for ( int c = X_AXIS; c <= Z_AXIS; c++ ) { | |
678 | if ( (home_all || gcode->has_letter(c + 'X')) && this->pins[c + (this->home_direction[c] ? 0 : 3)].connected() ) { | |
679 | axes_to_move += ( 1 << c ); | |
df27a6a3 | 680 | } |
e714bd32 | 681 | } |
3b948656 | 682 | |
e714bd32 JM |
683 | // Enable the motors |
684 | THEKERNEL->stepper->turn_enable_pins_on(); | |
685 | ||
686 | // do the actual homing | |
687 | if(homing_order != 0) { | |
688 | // if an order has been specified do it in the specified order | |
689 | // homing order is 0b00ccbbaa where aa is 0,1,2 to specify the first axis, bb is the second and cc is the third | |
690 | // eg 0b00100001 would be Y X Z, 0b00100100 would be X Y Z | |
691 | for (uint8_t m = homing_order; m != 0; m >>= 2) { | |
692 | int a = (1 << (m & 0x03)); // axis to move | |
693 | if((a & axes_to_move) != 0) { | |
694 | home(a); | |
80605954 | 695 | } |
e714bd32 JM |
696 | // check if on_halt (eg kill) |
697 | if(THEKERNEL->is_halted()) break; | |
80605954 | 698 | } |
3ffe27fb | 699 | |
e714bd32 JM |
700 | } else { |
701 | // they all home at the same time | |
702 | home(axes_to_move); | |
703 | } | |
704 | ||
705 | // check if on_halt (eg kill) | |
706 | if(THEKERNEL->is_halted()) { | |
07186543 JM |
707 | if(!THEKERNEL->is_grbl_mode()) { |
708 | THEKERNEL->streams->printf("Homing cycle aborted by kill\n"); | |
709 | } | |
e714bd32 JM |
710 | return; |
711 | } | |
798295c1 | 712 | |
e714bd32 JM |
713 | if(home_all) { |
714 | // Here's where we would have been if the endstops were perfectly trimmed | |
42bbc035 JM |
715 | // NOTE on a rotary delta home_offset is actuator position in degrees when homed and |
716 | // home_offset is the theta offset for each actuator, so M206 is used to set theta offset for each actuator in degrees | |
e714bd32 JM |
717 | float ideal_position[3] = { |
718 | this->homing_position[X_AXIS] + this->home_offset[X_AXIS], | |
719 | this->homing_position[Y_AXIS] + this->home_offset[Y_AXIS], | |
720 | this->homing_position[Z_AXIS] + this->home_offset[Z_AXIS] | |
721 | }; | |
722 | ||
723 | bool has_endstop_trim = this->is_delta || this->is_scara; | |
724 | if (has_endstop_trim) { | |
725 | ActuatorCoordinates ideal_actuator_position; | |
726 | THEKERNEL->robot->arm_solution->cartesian_to_actuator(ideal_position, ideal_actuator_position); | |
727 | ||
728 | // We are actually not at the ideal position, but a trim away | |
729 | ActuatorCoordinates real_actuator_position = { | |
730 | ideal_actuator_position[X_AXIS] - this->trim_mm[X_AXIS], | |
731 | ideal_actuator_position[Y_AXIS] - this->trim_mm[Y_AXIS], | |
732 | ideal_actuator_position[Z_AXIS] - this->trim_mm[Z_AXIS] | |
7552475b OL |
733 | }; |
734 | ||
e714bd32 JM |
735 | float real_position[3]; |
736 | THEKERNEL->robot->arm_solution->actuator_to_cartesian(real_actuator_position, real_position); | |
737 | // Reset the actuator positions to correspond our real position | |
738 | THEKERNEL->robot->reset_axis_position(real_position[0], real_position[1], real_position[2]); | |
42bbc035 | 739 | |
7552475b | 740 | } else { |
e714bd32 | 741 | // without endstop trim, real_position == ideal_position |
42bbc035 JM |
742 | if(is_rdelta) { |
743 | // with a rotary delta we set the actuators angle then use the FK to calculate the resulting cartesian coordinates | |
744 | THEKERNEL->robot->reset_actuator_position(ideal_position[0], ideal_position[1], ideal_position[2]); | |
745 | ||
746 | }else{ | |
747 | // Reset the actuator positions to correspond our real position | |
748 | THEKERNEL->robot->reset_axis_position(ideal_position[0], ideal_position[1], ideal_position[2]); | |
749 | } | |
e714bd32 | 750 | } |
42bbc035 | 751 | |
e714bd32 JM |
752 | } else { |
753 | // Zero the ax(i/e)s position, add in the home offset | |
754 | for ( int c = X_AXIS; c <= Z_AXIS; c++ ) { | |
755 | if ( (axes_to_move >> c) & 1 ) { | |
756 | THEKERNEL->robot->reset_axis_position(this->homing_position[c] + this->home_offset[c], c); | |
3ffe27fb AV |
757 | } |
758 | } | |
e714bd32 | 759 | } |
3c947f85 | 760 | |
e714bd32 JM |
761 | // on some systems where 0,0 is bed center it is nice to have home goto 0,0 after homing |
762 | // default is off for cartesian on for deltas | |
763 | if(!is_delta) { | |
42bbc035 | 764 | // NOTE a rotary delta usually has optical or hall-effect endstops so it is safe to go past them a little bit |
e714bd32 JM |
765 | if(this->move_to_origin_after_home) move_to_origin(axes_to_move); |
766 | // if limit switches are enabled we must back off endstop after setting home | |
767 | back_off_home(axes_to_move); | |
768 | ||
769 | } else if(this->move_to_origin_after_home || this->limit_enable[X_AXIS]) { | |
770 | // deltas are not left at 0,0 because of the trim settings, so move to 0,0 if requested, but we need to back off endstops first | |
771 | // also need to back off endstops if limits are enabled | |
772 | back_off_home(axes_to_move); | |
773 | if(this->move_to_origin_after_home) move_to_origin(axes_to_move); | |
c339d634 | 774 | } |
e714bd32 | 775 | } |
81f02e89 | 776 | |
e714bd32 | 777 | if (gcode->has_m) { |
33e4cc02 JM |
778 | switch (gcode->m) { |
779 | case 119: { | |
ef7bd372 JM |
780 | for (int i = 0; i < 6; ++i) { |
781 | if(this->pins[i].connected()) | |
782 | gcode->stream->printf("%s:%d ", endstop_names[i], this->pins[i].get()); | |
783 | } | |
e714bd32 | 784 | gcode->add_nl = true; |
6e92ab91 | 785 | |
33e4cc02 JM |
786 | } |
787 | break; | |
788 | ||
789 | case 206: // M206 - set homing offset | |
504f0e3e JM |
790 | if (gcode->has_letter('X')) home_offset[0] = gcode->get_value('X'); |
791 | if (gcode->has_letter('Y')) home_offset[1] = gcode->get_value('Y'); | |
792 | if (gcode->has_letter('Z')) home_offset[2] = gcode->get_value('Z'); | |
793 | gcode->stream->printf("X %5.3f Y %5.3f Z %5.3f\n", home_offset[0], home_offset[1], home_offset[2]); | |
504f0e3e | 794 | break; |
0e4bf280 | 795 | |
42bbc035 JM |
796 | case 306: |
797 | if(!is_rdelta) { // Similar to M206 and G92 but sets Homing offsets based on current position | |
798 | float cartesian[3]; | |
799 | THEKERNEL->robot->get_axis_position(cartesian); // get actual position from robot | |
800 | if (gcode->has_letter('X')) { | |
801 | home_offset[0] -= (cartesian[X_AXIS] - gcode->get_value('X')); | |
802 | THEKERNEL->robot->reset_axis_position(gcode->get_value('X'), X_AXIS); | |
803 | } | |
804 | if (gcode->has_letter('Y')) { | |
805 | home_offset[1] -= (cartesian[Y_AXIS] - gcode->get_value('Y')); | |
806 | THEKERNEL->robot->reset_axis_position(gcode->get_value('Y'), Y_AXIS); | |
807 | } | |
808 | if (gcode->has_letter('Z')) { | |
809 | home_offset[2] -= (cartesian[Z_AXIS] - gcode->get_value('Z')); | |
810 | THEKERNEL->robot->reset_axis_position(gcode->get_value('Z'), Z_AXIS); | |
811 | } | |
9ae8c7e4 | 812 | |
42bbc035 | 813 | gcode->stream->printf("Homing Offset: X %5.3f Y %5.3f Z %5.3f\n", home_offset[0], home_offset[1], home_offset[2]); |
6e92ab91 | 814 | |
42bbc035 JM |
815 | }else{ |
816 | gcode->stream->printf("//M306 is not supported on rotary delta, use G92 Zxxx or G5x to set z height\n"); | |
817 | } | |
818 | break; | |
33e4cc02 JM |
819 | |
820 | case 500: // save settings | |
821 | case 503: // print settings | |
822 | gcode->stream->printf(";Home offset (mm):\nM206 X%1.2f Y%1.2f Z%1.2f\n", home_offset[0], home_offset[1], home_offset[2]); | |
d0280b9d | 823 | if (this->is_delta || this->is_scara) { |
42bbc035 | 824 | gcode->stream->printf(";Trim (mm):\nM666 X%1.3f Y%1.3f Z%1.3f\n", trim_mm[0], trim_mm[1], trim_mm[2]); |
56ce2b5a | 825 | gcode->stream->printf(";Max Z\nM665 Z%1.3f\n", this->homing_position[2]); |
7a8fe6e0 | 826 | } |
e714bd32 JM |
827 | if(saved_position[X_AXIS] != 0 || saved_position[Y_AXIS] != 0) { |
828 | gcode->stream->printf(";predefined position:\nG28.1 X%1.4f Y%1.4f Z%1.4f\n", saved_position[X_AXIS], saved_position[Y_AXIS], saved_position[Z_AXIS]); | |
829 | } | |
c339d634 | 830 | break; |
47bbe224 | 831 | |
42bbc035 JM |
832 | case 665: |
833 | if (this->is_delta || this->is_scara) { // M665 - set max gamma/z height | |
834 | float gamma_max = this->homing_position[2]; | |
835 | if (gcode->has_letter('Z')) { | |
836 | this->homing_position[2] = gamma_max = gcode->get_value('Z'); | |
837 | } | |
838 | gcode->stream->printf("Max Z %8.3f ", gamma_max); | |
839 | gcode->add_nl = true; | |
ec4773e5 | 840 | } |
42bbc035 | 841 | break; |
47bbe224 | 842 | |
56ce2b5a | 843 | case 666: |
3e1f5b74 | 844 | if(this->is_delta || this->is_scara) { // M666 - set trim for each axis in mm, NB negative mm trim is down |
56ce2b5a JM |
845 | if (gcode->has_letter('X')) trim_mm[0] = gcode->get_value('X'); |
846 | if (gcode->has_letter('Y')) trim_mm[1] = gcode->get_value('Y'); | |
847 | if (gcode->has_letter('Z')) trim_mm[2] = gcode->get_value('Z'); | |
47bbe224 | 848 | |
56ce2b5a JM |
849 | // print the current trim values in mm |
850 | gcode->stream->printf("X: %5.3f Y: %5.3f Z: %5.3f\n", trim_mm[0], trim_mm[1], trim_mm[2]); | |
6e92ab91 | 851 | |
56ce2b5a | 852 | } |
e714bd32 | 853 | break; |
47bbe224 | 854 | |
d4ee6ee2 | 855 | // NOTE this is to test accuracy of lead screws etc. |
586cc733 JM |
856 | case 1910: { |
857 | // M1910.0 - move specific number of raw steps | |
858 | // M1910.1 - stop any moves | |
859 | // M1910.2 - move specific number of actuator coordinates (usually mm but is degrees for a rotary delta) | |
860 | if(gcode->subcode == 0 || gcode->subcode == 2) { | |
b023850b JM |
861 | // Enable the motors |
862 | THEKERNEL->stepper->turn_enable_pins_on(); | |
863 | ||
586cc733 | 864 | int32_t x = 0, y = 0 , z = 0, f = 200 * 16; |
b023850b | 865 | if (gcode->has_letter('F')) f = gcode->get_value('F'); |
586cc733 | 866 | |
b023850b JM |
867 | if (gcode->has_letter('X')) { |
868 | x = gcode->get_value('X'); | |
586cc733 | 869 | if(gcode->subcode == 2) x= lroundf(x * STEPS_PER_MM(X_AXIS)); |
e714bd32 | 870 | STEPPER[X_AXIS]->move(x < 0, abs(x), f); |
b023850b JM |
871 | } |
872 | if (gcode->has_letter('Y')) { | |
873 | y = gcode->get_value('Y'); | |
586cc733 | 874 | if(gcode->subcode == 2) y= lroundf(y * STEPS_PER_MM(Y_AXIS)); |
e714bd32 | 875 | STEPPER[Y_AXIS]->move(y < 0, abs(y), f); |
b023850b JM |
876 | } |
877 | if (gcode->has_letter('Z')) { | |
878 | z = gcode->get_value('Z'); | |
586cc733 | 879 | if(gcode->subcode == 2) z= lroundf(z * STEPS_PER_MM(Z_AXIS)); |
e714bd32 | 880 | STEPPER[Z_AXIS]->move(z < 0, abs(z), f); |
b023850b | 881 | } |
586cc733 | 882 | gcode->stream->printf("Moving X %ld Y %ld Z %ld steps at F %ld steps/sec\n", x, y, z, f); |
b023850b | 883 | |
e714bd32 | 884 | } else if(gcode->subcode == 1) { |
b023850b JM |
885 | // stop any that are moving |
886 | for (int i = 0; i < 3; ++i) { | |
e714bd32 JM |
887 | if(STEPPER[i]->is_moving()) STEPPER[i]->move(0, 0); |
888 | } | |
d4ee6ee2 | 889 | } |
d4ee6ee2 JM |
890 | break; |
891 | } | |
201bcb94 AW |
892 | } |
893 | } | |
894 | } | |
895 | ||
64eaf21e | 896 | // Called periodically to change the speed to match acceleration |
a157d099 | 897 | void Endstops::acceleration_tick(void) |
64eaf21e | 898 | { |
a157d099 | 899 | if(this->status >= NOT_HOMING) return; // nothing to do, only do this when moving for homing sequence |
64eaf21e JM |
900 | |
901 | // foreach stepper that is moving | |
902 | for ( int c = X_AXIS; c <= Z_AXIS; c++ ) { | |
dd0a7cfa | 903 | if( !STEPPER[c]->is_moving() ) continue; |
64eaf21e | 904 | |
dd0a7cfa | 905 | uint32_t current_rate = STEPPER[c]->get_steps_per_second(); |
e714bd32 JM |
906 | uint32_t target_rate = floorf(this->feed_rate[c] * STEPS_PER_MM(c)); |
907 | float acc = (c == Z_AXIS) ? THEKERNEL->planner->get_z_acceleration() : THEKERNEL->planner->get_acceleration(); | |
908 | if( current_rate < target_rate ) { | |
909 | uint32_t rate_increase = floorf((acc / THEKERNEL->acceleration_ticks_per_second) * STEPS_PER_MM(c)); | |
64eaf21e JM |
910 | current_rate = min( target_rate, current_rate + rate_increase ); |
911 | } | |
e714bd32 | 912 | if( current_rate > target_rate ) { current_rate = target_rate; } |
64eaf21e JM |
913 | |
914 | // steps per second | |
6f6677fc | 915 | STEPPER[c]->set_speed(current_rate); |
64eaf21e JM |
916 | } |
917 | ||
a157d099 | 918 | return; |
64eaf21e | 919 | } |
9f6f04a5 | 920 | |
e714bd32 JM |
921 | void Endstops::on_get_public_data(void* argument) |
922 | { | |
9f6f04a5 JM |
923 | PublicDataRequest* pdr = static_cast<PublicDataRequest*>(argument); |
924 | ||
925 | if(!pdr->starts_with(endstops_checksum)) return; | |
926 | ||
927 | if(pdr->second_element_is(trim_checksum)) { | |
86fa0b93 | 928 | pdr->set_data_ptr(&this->trim_mm); |
ea5c6d92 JM |
929 | pdr->set_taken(); |
930 | ||
e714bd32 | 931 | } else if(pdr->second_element_is(home_offset_checksum)) { |
86fa0b93 | 932 | pdr->set_data_ptr(&this->home_offset); |
9f6f04a5 | 933 | pdr->set_taken(); |
e714bd32 JM |
934 | |
935 | } else if(pdr->second_element_is(saved_position_checksum)) { | |
936 | pdr->set_data_ptr(&this->saved_position); | |
937 | pdr->set_taken(); | |
07186543 JM |
938 | |
939 | } else if(pdr->second_element_is(get_homing_status_checksum)) { | |
940 | bool *homing= static_cast<bool *>(pdr->get_data_ptr()); | |
941 | *homing= this->status != NOT_HOMING; | |
942 | pdr->set_taken(); | |
9f6f04a5 JM |
943 | } |
944 | } | |
7d6fe308 | 945 | |
e714bd32 JM |
946 | void Endstops::on_set_public_data(void* argument) |
947 | { | |
7d6fe308 JM |
948 | PublicDataRequest* pdr = static_cast<PublicDataRequest*>(argument); |
949 | ||
950 | if(!pdr->starts_with(endstops_checksum)) return; | |
951 | ||
952 | if(pdr->second_element_is(trim_checksum)) { | |
e714bd32 JM |
953 | float *t = static_cast<float*>(pdr->get_data_ptr()); |
954 | this->trim_mm[0] = t[0]; | |
955 | this->trim_mm[1] = t[1]; | |
956 | this->trim_mm[2] = t[2]; | |
7d6fe308 | 957 | pdr->set_taken(); |
ea5c6d92 | 958 | |
e714bd32 JM |
959 | } else if(pdr->second_element_is(home_offset_checksum)) { |
960 | float *t = static_cast<float*>(pdr->get_data_ptr()); | |
961 | if(!isnan(t[0])) this->home_offset[0] = t[0]; | |
962 | if(!isnan(t[1])) this->home_offset[1] = t[1]; | |
963 | if(!isnan(t[2])) this->home_offset[2] = t[2]; | |
7d6fe308 JM |
964 | } |
965 | } |