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.
5 You should have received a copy of the GNU General Public License along with Smoothie. If not, see <http://www.gnu.org/licenses/>.
8 #include "libs/Module.h"
9 #include "libs/Kernel.h"
10 #include "modules/communication/utils/Gcode.h"
11 #include "modules/robot/Player.h"
13 #include "libs/nuts_bolts.h"
15 #include "libs/StepperMotor.h"
16 #include "wait_api.h" // mbed.h lib
19 this->status
= NOT_HOMING
;
22 void Endstops::on_module_loaded() {
23 register_for_event(ON_CONFIG_RELOAD
);
24 this->register_for_event(ON_GCODE_RECEIVED
);
26 // Take StepperMotor objects from Robot and keep them here
27 this->steppers
[0] = this->kernel
->robot
->alpha_stepper_motor
;
28 this->steppers
[1] = this->kernel
->robot
->beta_stepper_motor
;
29 this->steppers
[2] = this->kernel
->robot
->gamma_stepper_motor
;
32 this->on_config_reload(this);
37 void Endstops::on_config_reload(void* argument
){
38 this->pins
[0].from_string( this->kernel
->config
->value(alpha_min_endstop_checksum
)->by_default("nc" )->as_string())->as_input()->pull_up();
39 this->pins
[1].from_string( this->kernel
->config
->value(beta_min_endstop_checksum
)->by_default("nc" )->as_string())->as_input()->pull_up();
40 this->pins
[2].from_string( this->kernel
->config
->value(gamma_min_endstop_checksum
)->by_default("nc" )->as_string())->as_input()->pull_up();
41 this->pins
[3].from_string( this->kernel
->config
->value(alpha_max_endstop_checksum
)->by_default("nc" )->as_string())->as_input()->pull_up();
42 this->pins
[4].from_string( this->kernel
->config
->value(beta_max_endstop_checksum
)->by_default("nc" )->as_string())->as_input()->pull_up();
43 this->pins
[5].from_string( this->kernel
->config
->value(gamma_max_endstop_checksum
)->by_default("nc" )->as_string())->as_input()->pull_up();
44 this->fast_rates
[0] = this->kernel
->config
->value(alpha_fast_homing_rate_checksum
)->by_default("500" )->as_number();
45 this->fast_rates
[1] = this->kernel
->config
->value(beta_fast_homing_rate_checksum
)->by_default("500" )->as_number();
46 this->fast_rates
[2] = this->kernel
->config
->value(gamma_fast_homing_rate_checksum
)->by_default("5" )->as_number();
47 this->slow_rates
[0] = this->kernel
->config
->value(alpha_slow_homing_rate_checksum
)->by_default("100" )->as_number();
48 this->slow_rates
[1] = this->kernel
->config
->value(beta_slow_homing_rate_checksum
)->by_default("100" )->as_number();
49 this->slow_rates
[2] = this->kernel
->config
->value(gamma_slow_homing_rate_checksum
)->by_default("5" )->as_number();
50 this->retract_steps
[0] = this->kernel
->config
->value(alpha_homing_retract_checksum
)->by_default("30" )->as_number();
51 this->retract_steps
[1] = this->kernel
->config
->value(beta_homing_retract_checksum
)->by_default("30" )->as_number();
52 this->retract_steps
[2] = this->kernel
->config
->value(gamma_homing_retract_checksum
)->by_default("10" )->as_number();
53 this->debounce_count
= this->kernel
->config
->value(endstop_debounce_count_checksum
)->by_default("100" )->as_number();
56 void Endstops::wait_for_homed(char axes_to_move
)
59 unsigned int debounce
[3] = {0,0,0};
62 for( char c
= 'X'; c
<= 'Z'; c
++ ){
63 if( ( axes_to_move
>> ( c
- 'X' ) ) & 1 ){
64 if( this->pins
[c
- 'X'].get() ){
65 if( debounce
[c
- 'X'] < debounce_count
) {
68 } else if ( this->steppers
[c
- 'X']->moving
){
69 this->steppers
[c
- 'X']->move(0,0);
70 printf("move done %c\r\n", c
);
73 // The endstop was not hit yet
75 debounce
[c
- 'X'] = 0;
82 // Start homing sequences by response to GCode commands
83 void Endstops::on_gcode_received(void* argument
)
85 Gcode
* gcode
= static_cast<Gcode
*>(argument
);
90 // G28 is received, we have homing to do
92 // First wait for the queue to be empty
93 while(this->kernel
->player
->queue
.size() > 0) { wait_us(500); }
95 // Do we move select axes or all of them
96 char axes_to_move
= ( ( gcode
->has_letter('X') || gcode
->has_letter('Y') || gcode
->has_letter('Z') ) ? 0x00 : 0xff );
97 for( char c
= 'X'; c
<= 'Z'; c
++ ){
98 if( gcode
->has_letter(c
) && this->pins
[c
- 'X'].connected() ){ axes_to_move
+= ( 1 << (c
- 'X' ) ); }
102 this->kernel
->stepper
->turn_enable_pins_on();
104 // Start moving the axes to the origin
105 this->status
= MOVING_TO_ORIGIN_FAST
;
106 for( char c
= 'X'; c
<= 'Z'; c
++ ){
107 if( ( axes_to_move
>> ( c
- 'X' ) ) & 1 ){
108 this->steppers
[c
- 'X']->set_speed(this->fast_rates
[c
-'X']);
109 this->steppers
[c
- 'X']->move(1,10000000);
113 // Wait for all axes to have homed
114 this->wait_for_homed(axes_to_move
);
116 printf("test a\r\n");
117 // Move back a small distance
118 this->status
= MOVING_BACK
;
119 for( char c
= 'X'; c
<= 'Z'; c
++ ){
120 if( ( axes_to_move
>> ( c
- 'X' ) ) & 1 ){
121 this->steppers
[c
- 'X']->set_speed(this->slow_rates
[c
- 'X']);
122 this->steppers
[c
- 'X']->move(0,this->retract_steps
[c
- 'X']);
126 printf("test b\r\n");
127 // Wait for moves to be done
128 for( char c
= 'X'; c
<= 'Z'; c
++ ){
129 if( ( axes_to_move
>> ( c
- 'X' ) ) & 1 ){
130 printf("axis %c \r\n", c
);
131 while( this->steppers
[c
- 'X']->moving
){ }
135 printf("test c\r\n");
137 // Start moving the axes to the origin slowly
138 this->status
= MOVING_TO_ORIGIN_SLOW
;
139 for( char c
= 'X'; c
<= 'Z'; c
++ ){
140 if( ( axes_to_move
>> ( c
- 'X' ) ) & 1 ){
141 this->steppers
[c
- 'X']->set_speed(this->slow_rates
[c
-'X']);
142 this->steppers
[c
- 'X']->move(1,10000000);
146 // Wait for all axes to have homed
147 this->wait_for_homed(axes_to_move
);
150 this->status
= NOT_HOMING
;
153 else if (gcode
->has_m
)
158 gcode
->stream
->printf("X min:%d max:%d Y min:%d max:%d Z min:%d max:%d\n",