Thomas Byrne
testing
Dependencies: mbed tinyshell X_NUCLEO_IHM02A1
Revision 30:a23204ee2be2, committed 2021-04-01
- Comitter:
- tom_astranis
- Date:
- Thu Apr 01 22:20:55 2021 +0000
- Parent:
- 29:a510e875936d
- Child:
- 31:ebd464b0d0d8
- Commit message:
- Basic commands all working.
Changed in this revision
| main.cpp | Show annotated file Show diff for this revision Revisions of this file |
--- a/main.cpp Thu Apr 01 18:03:26 2021 +0000
+++ b/main.cpp Thu Apr 01 22:20:55 2021 +0000
@@ -1,45 +1,3 @@
-/**
- ******************************************************************************
- * @file main.cpp
- * @author Davide Aliprandi, STMicroelectronics
- * @version V1.0.0
- * @date November 4th, 2015
- * @brief mbed test application for the STMicroelectronics X-NUCLEO-IHM02A1
- * Motor Control Expansion Board: control of 2 motors.
- ******************************************************************************
- * @attention
- *
- * <h2><center>© COPYRIGHT(c) 2015 STMicroelectronics</center></h2>
- *
- * Redistribution and use in source and binary forms, with or without modification,
- * are permitted provided that the following conditions are met:
- * 1. Redistributions of source code must retain the above copyright notice,
- * this list of conditions and the following disclaimer.
- * 2. Redistributions in binary form must reproduce the above copyright notice,
- * this list of conditions and the following disclaimer in the documentation
- * and/or other materials provided with the distribution.
- * 3. Neither the name of STMicroelectronics nor the names of its contributors
- * may be used to endorse or promote products derived from this software
- * without specific prior written permission.
- *
- * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
- * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
- * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
- * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
- * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
- * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
- * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
- * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
- * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
- * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
- *
- ******************************************************************************
- */
-
-
-/* Includes ------------------------------------------------------------------*/
-
-/* mbed specific header files. */
#include "mbed.h"
/* Helper header files. */
@@ -51,6 +9,9 @@
/* Tinyshell: https://os.mbed.com/users/murilopontes/code/tinyshell/ */
#include "tinysh.h"
+#include <cstdlib>
+#include <string>
+
/* Definitions ---------------------------------------------------------------*/
/* Motor specs */
@@ -59,7 +20,7 @@
#define MAX_PHASE_CURRENT_A 0.67
#define PHASE_RES_OHMS 12.0
#define MOTOR_INITIAL_SPEED_SPS 1000.0
-#define MOTOR_ACCEL_SPS2 200.0
+#define MOTOR_ACCEL_SPS2 1000.0
#define MOTOR_MAX_SPEED_SPS 2000.0
#define FULL_STEP_TH_SPS 602.7
#define DUMMY_KVAL_V 3.06
@@ -74,23 +35,6 @@
#define MIN_LOOP_TIME_MS 1
#define HARD_STOP_WAIT_MS 100
-#define CMD_BUFFER_SIZE 256
-#define OUTPUT_BUFFER_SIZE 1024
-
-/* Number of steps. */
-#define STEPS_1 (20000 * 1) /* 1 revolution given a 200 step motor and 100:1 gearbox, with full stepping */
-#define STEPS_2 (STEPS_1 * 2)
-#define SPEED_SPS 10000 // steps per second
-
-/* Number of movements per revolution. */
-#define MPR_1 4
-
-/* Delay in milliseconds. */
-#define DELAY_1 1000
-#define DELAY_2 2000
-#define DELAY_3 5000
-
-
/* Variables -----------------------------------------------------------------*/
/* Motor Control Expansion Board. */
@@ -163,6 +107,11 @@
bool status_flag = false;
bool run_flag = false;
bool stop_flag = false;
+bool cmd_both = false;
+int which_axis = 0;
+int speed_sps = 0;
+int go_steps = 0;
+int dir_fwd = true;
/* Tinyshell command handler functions */
void set_status_flag(int argc, char **argv)
@@ -170,21 +119,88 @@
status_flag = true;
}
+// gosteps dir steps (axis)
+void set_gosteps_flag(int argc, char **argv)
+{
+ if (argc < 3 || argc > 4) {
+ printf("\r\nIncorrect number of arguments for: gosteps dir steps (axis).\r\n");
+ return;
+ }
+
+ dir_fwd = true;
+ if (argv[1] == std::string("bwd")) dir_fwd = false;
+ go_steps = atoi(argv[2]);
+
+ if (argc == 3) {
+ // both axes
+ cmd_both = true;
+ } else {
+ cmd_both = false;
+ which_axis = 0;
+ if (argv[3] == std::string("y")) which_axis = 1;
+ }
+}
+
+// run dir speed (axis)
void set_run_flag(int argc, char **argv)
{
+ if (argc < 3 || argc > 4) {
+ printf("\r\nIncorrect number of arguments for: run dir steps (axis).\r\n");
+ return;
+ }
+
run_flag = true;
+ dir_fwd = true;
+ if (argv[1] == std::string("bwd")) dir_fwd = false;
+ speed_sps = atoi(argv[2]);
+
+ //printf("\r\nParsing 'run'[%d], %s %s %s", argc, argv[1], argv[2], argv[3]);
+ if (argc == 3) {
+ // both axes
+ cmd_both = true;
+ //printf("\r\nUsing both axes\r\n");
+ } else {
+ cmd_both = false;
+ which_axis = 0;
+ if (argv[3] == std::string("y")) which_axis = 1;
+ //printf("\r\nUsing axis %s (%d)\r\n", argv[3], which_axis);
+ }
}
+// stop (axis)
void set_stop_flag(int argc, char **argv)
{
+ if (argc > 2) {
+ printf("\r\nIncorrect number of arguments for: stop (axis).\r\n");
+ return;
+ }
+
stop_flag = true;
+
+ if (argc == 1) {
+ // both axes
+ cmd_both = true;
+ } else {
+ cmd_both = false;
+ which_axis = 0;
+ if (argv[1] == std::string("y")) which_axis = 1;
+ }
}
// parent cmd (0 for top) cmd input name, help string, usage string,
// function to launch, arg when called, next (0 at init), child (0 at init)
-tinysh_cmd_t print_status_cmd = {0, "status", "status command", "[args]", set_status_flag,0,0,0};
-tinysh_cmd_t run_cmd = {0, "run", "run command", "[args]", set_run_flag,0,0,0};
-tinysh_cmd_t stop_cmd = {0, "stop", "stop command", "[args]", set_stop_flag,0,0,0};
+tinysh_cmd_t print_status_cmd = {0, "status",
+ "\r\nPrint content of status registers.\r\n",
+ "[no args]", set_status_flag,0,0,0};
+tinysh_cmd_t go_steps_cmd = {0, "gosteps",
+ "\r\n'Go n steps', dir = 'fwd' for CW or 'bwd' for CCW, steps = n steps, axis = 'x' or 'y' (omit for both).\r\n",
+ "[dir, steps, (axis)]", set_gosteps_flag,0,0,0};
+tinysh_cmd_t run_cmd = {0, "run",
+ "\r\nRun motor, dir = 'fwd' for CW or 'bwd' for CCW, speed in steps per second, axis = 'x' or 'y' (omit for both).\r\n",
+ "[dir, speed, (axis)]", set_run_flag,0,0,0};
+tinysh_cmd_t stop_cmd = {0, "stop",
+ "\r\nStop motor, optional axis = 'x' or 'y'; both stopped if omitted.\r\n",
+ "[(axis)]", set_stop_flag,0,0,0};
/* mandatory tiny shell output function */
void tinysh_char_out(unsigned char c)
@@ -201,12 +217,13 @@
/* Set up tinyshell */
pc.baud(115200);
- pc.printf("Motor controller ready\r\n");
- tinysh_set_prompt("$ ");
+ pc.printf("\r\nMotor controller ready\r\n");
+ tinysh_set_prompt("> ");
// Add all tinyshell commands here
tinysh_add_command(&print_status_cmd);
tinysh_add_command(&run_cmd);
+ tinysh_add_command(&go_steps_cmd);
tinysh_add_command(&stop_cmd);
/* Initializing SPI bus. */
@@ -224,7 +241,7 @@
// Main loop
while(1) {
- /* 1: Check for hardware flags ----------------------------------------*/
+ /* 1: Check for hardware flags ---------------------------------------*/
if (limit_flag) {
// clear flag
limit_flag = false;
@@ -243,49 +260,111 @@
}
x_nucleo_ihm02a1->perform_prepared_actions();
- printf("Reached limit.\r\n");
+ printf("\r\nReached limit.\r\n");
}
/* 2: Fetch new chars for Tinyshell ----------------------------------*/
tinysh_char_in(pc.getc());
/* 3: Handle Commands ------------------------------------------------*/
+ if (go_steps) {
+ // Stop first
+ if (cmd_both) {
+ for (int m = 0; m < L6470DAISYCHAINSIZE; m++) {
+ motors[m]->prepare_hard_stop();
+ }
+ x_nucleo_ihm02a1->perform_prepared_actions();
+ } else {
+ motors[which_axis]->hard_stop();
+ }
+ wait_ms(HARD_STOP_WAIT_MS);
+
+ if (cmd_both) {
+ for (int m = 0; m < L6470DAISYCHAINSIZE; m++) {
+ if (dir_fwd) motors[m]->prepare_move(StepperMotor::FWD, go_steps);
+ else motors[m]->prepare_move(StepperMotor::BWD, go_steps);
+ }
+ x_nucleo_ihm02a1->perform_prepared_actions();
+ } else {
+ if (dir_fwd) motors[which_axis]->move(StepperMotor::FWD, go_steps);
+ else motors[which_axis]->move(StepperMotor::BWD, go_steps);
+ }
+
+ printf("\r\nGoing %s %d steps.\r\n", dir_fwd ? "Forward" : "Backward", go_steps);
+
+ // Clear flags
+ go_steps = 0;
+ cmd_both = false;
+ }
+
if (run_flag) {
+ // Stop first
+ if (cmd_both) {
+ // stop both at same time
+ for (int m = 0; m < L6470DAISYCHAINSIZE; m++) {
+ motors[m]->prepare_hard_stop();
+ }
+ x_nucleo_ihm02a1->perform_prepared_actions();
+ } else {
+ motors[which_axis]->hard_stop();
+ }
+ wait_ms(HARD_STOP_WAIT_MS);
+
+ if (cmd_both) {
+ for (int m = 0; m < L6470DAISYCHAINSIZE; m++) {
+ if (dir_fwd) motors[m]->prepare_run(StepperMotor::FWD, speed_sps);
+ else motors[m]->prepare_run(StepperMotor::BWD, speed_sps);
+ }
+ x_nucleo_ihm02a1->perform_prepared_actions();
+ } else {
+ if (dir_fwd) motors[which_axis]->run(StepperMotor::FWD, speed_sps);
+ else motors[which_axis]->run(StepperMotor::BWD, speed_sps);
+ }
+
+ printf("\r\nRunning.\r\n");
+
+ // Clear flags
run_flag = false;
- // Hello world: just run the damn motor forever
- printf("Running.\r\n");
- for (int m = 0; m < L6470DAISYCHAINSIZE; m++) {
- motors[m]->prepare_run(StepperMotor::BWD, SPEED_SPS);
- }
- x_nucleo_ihm02a1->perform_prepared_actions();
+ cmd_both = false;
}
if (stop_flag) {
- stop_flag = false;
+
+ printf("\r\nStopping.\r\n");
+
// Hard stop
- printf("Stopping.\r\n");
- for (int m = 0; m < L6470DAISYCHAINSIZE; m++) {
- motors[m]->prepare_hard_stop();
+ if (cmd_both) {
+ // stop both at same time
+ for (int m = 0; m < L6470DAISYCHAINSIZE; m++) {
+ motors[m]->prepare_hard_stop();
+ }
+ x_nucleo_ihm02a1->perform_prepared_actions();
+ } else {
+ motors[which_axis]->hard_stop();
}
- x_nucleo_ihm02a1->perform_prepared_actions();
-
wait_ms(HARD_STOP_WAIT_MS);
// High Z
- for (int m = 0; m < L6470DAISYCHAINSIZE; m++) {
- motors[m]->prepare_hard_hiz();
+ if (cmd_both) {
+ for (int m = 0; m < L6470DAISYCHAINSIZE; m++) {
+ motors[m]->prepare_hard_hiz();
+ }
+ x_nucleo_ihm02a1->perform_prepared_actions();
+ } else {
+ motors[which_axis]->hard_hiz();
}
- x_nucleo_ihm02a1->perform_prepared_actions();
+
+ // clear flags
+ stop_flag = false;
+ cmd_both = false;
}
+
if (status_flag) {
- // clear flag
- status_flag = false;
-
// Fetch and parse the status register for each motor
for (int m = 0; m < L6470DAISYCHAINSIZE; m++) {
status_bytes[m] = motors[m]->get_status();
- printf("Status reg %d: 0x%02X\r\n", m, status_bytes[m]);
+ printf("\r\nStatus reg %d: 0x%02X\r\n", m, status_bytes[m]);
printf(" STEP-CLOCK MODE: ");
printf(status_bytes[m] & 0x8000 ? "SET\r\n" : "NOT SET\r\n");
printf(" STEP_LOSS_B: ");
@@ -319,256 +398,11 @@
printf(status_bytes[m] & 0x0002 ? "SET\r\n" : "NOT SET\r\n");
printf(" HI_Z: ");
printf(status_bytes[m] & 0x0001 ? "SET\r\n" : "NOT SET\r\n");
- printf("\n\n");
+ printf("\r\n\n");
}
+ // clear flag
+ status_flag = false;
}
} // end main loop
-}
-
-
-// /* Printing to the console. */
-// printf("--> Setting home position.\r\n");
-//
-// /* Setting the home position. */
-// motors[0]->set_home();
-
-// /* Waiting. */
-// wait_ms(DELAY_1);
-//
-// /* Getting the current position. */
-// int position = motors[0]->get_position();
-//
-// /* Printing to the console. */
-// printf("--> Getting the current position: %d\r\n", position);
-
-// /* Waiting. */
-// wait_ms(DELAY_1);
-//
-// /* Printing to the console. */
-// printf("--> Moving forward %d steps.\r\n", STEPS_1);
-//
-// /* Moving. */
-// motors[0]->move(StepperMotor::FWD, STEPS_1);
-//
-// /* Waiting while active. */
-// motors[0]->wait_while_active();
-//
-// /* Getting the current position. */
-// position = motors[0]->get_position();
-//
-// /* Printing to the console. */
-// printf("--> Getting the current position: %d\r\n", position);
-//
-// /* Printing to the console. */
-// printf("--> Marking the current position.\r\n");
-//
-// /* Marking the current position. */
-// motors[0]->set_mark();
-//
-// /* Waiting. */
-// wait_ms(DELAY_1);
-//
-// /* Printing to the console. */
-// printf("--> Moving backward %d steps.\r\n", STEPS_2);
-//
-// /* Moving. */
-// motors[0]->move(StepperMotor::BWD, STEPS_2);
-//
-// /* Waiting while active. */
-// motors[0]->wait_while_active();
-//
-// /* Waiting. */
-// wait_ms(DELAY_1);
-//
-// /* Getting the current position. */
-// position = motors[0]->get_position();
-//
-// /* Printing to the console. */
-// printf("--> Getting the current position: %d\r\n", position);
-//
-// /* Waiting. */
-// wait_ms(DELAY_1);
-//
-// /* Printing to the console. */
-// printf("--> Going to marked position.\r\n");
-//
-// /* Going to marked position. */
-// motors[0]->go_mark();
-//
-// /* Waiting while active. */
-// motors[0]->wait_while_active();
-//
-// /* Waiting. */
-// wait_ms(DELAY_1);
-//
-// /* Getting the current position. */
-// position = motors[0]->get_position();
-//
-// /* Printing to the console. */
-// printf("--> Getting the current position: %d\r\n", position);
-//
-// /* Waiting. */
-// wait_ms(DELAY_1);
-//
-// /* Printing to the console. */
-// printf("--> Going to home position.\r\n");
-//
-// /* Going to home position. */
-// motors[0]->go_home();
-//
-// /* Waiting while active. */
-// motors[0]->wait_while_active();
-//
-// /* Waiting. */
-// wait_ms(DELAY_1);
-//
-// /* Getting the current position. */
-// position = motors[0]->get_position();
-//
-// /* Printing to the console. */
-// printf("--> Getting the current position: %d\r\n", position);
-//
-// /* Waiting. */
-// wait_ms(DELAY_1);
-//
-// /* Printing to the console. */
-// printf("--> Halving the microsteps.\r\n");
-//
-// /* Halving the microsteps. */
-// init[0].step_sel = (init[0].step_sel > 0 ? init[0].step_sel - 1 : init[0].step_sel);
-// if (!motors[0]->set_step_mode((StepperMotor::step_mode_t) init[0].step_sel)) {
-// printf(" Step Mode not allowed.\r\n");
-// }
-//
-// /* Waiting. */
-// wait_ms(DELAY_1);
-//
-// /* Printing to the console. */
-// printf("--> Setting home position.\r\n");
-//
-// /* Setting the home position. */
-// motors[0]->set_home();
-//
-// /* Waiting. */
-// wait_ms(DELAY_1);
-//
-// /* Getting the current position. */
-// position = motors[0]->get_position();
-//
-// /* Printing to the console. */
-// printf("--> Getting the current position: %d\r\n", position);
-//
-// /* Waiting. */
-// wait_ms(DELAY_1);
-//
-// /* Printing to the console. */
-// printf("--> Moving forward %d steps.\r\n", STEPS_1);
-//
-// /* Moving. */
-// motors[0]->move(StepperMotor::FWD, STEPS_1);
-//
-// /* Waiting while active. */
-// motors[0]->wait_while_active();
-//
-// /* Getting the current position. */
-// position = motors[0]->get_position();
-//
-// /* Printing to the console. */
-// printf("--> Getting the current position: %d\r\n", position);
-//
-// /* Printing to the console. */
-// printf("--> Marking the current position.\r\n");
-//
-// /* Marking the current position. */
-// motors[0]->set_mark();
-//
-// /* Waiting. */
-// wait_ms(DELAY_2);
-//
-//
-// /*----- Running together for a certain amount of time. -----*/
-//
-// /* Printing to the console. */
-// printf("--> Running together for %d seconds.\r\n", DELAY_3 / 1000);
-//
-// /* Preparing each motor to perform a run at a specified speed. */
-// for (int m = 0; m < L6470DAISYCHAINSIZE; m++) {
-// motors[m]->prepare_run(StepperMotor::BWD, 400);
-// }
-//
-// /* Performing the action on each motor at the same time. */
-// x_nucleo_ihm02a1->perform_prepared_actions();
-//
-// /* Waiting. */
-// wait_ms(DELAY_3);
-//
-//
-// /*----- Increasing the speed while running. -----*/
-//
-// /* Preparing each motor to perform a run at a specified speed. */
-// for (int m = 0; m < L6470DAISYCHAINSIZE; m++) {
-// motors[m]->prepare_get_speed();
-// }
-//
-// /* Performing the action on each motor at the same time. */
-// uint32_t* results = x_nucleo_ihm02a1->perform_prepared_actions();
-//
-// /* Printing to the console. */
-// printf(" Speed: M1 %d, M2 %d.\r\n", results[0], results[1]);
-//
-// /* Printing to the console. */
-// printf("--> Doublig the speed while running again for %d seconds.\r\n", DELAY_3 / 1000);
-//
-// /* Preparing each motor to perform a run at a specified speed. */
-// for (int m = 0; m < L6470DAISYCHAINSIZE; m++) {
-// motors[m]->prepare_run(StepperMotor::BWD, results[m] << 1);
-// }
-//
-// /* Performing the action on each motor at the same time. */
-// results = x_nucleo_ihm02a1->perform_prepared_actions();
-//
-// /* Waiting. */
-// wait_ms(DELAY_3);
-//
-// /* Preparing each motor to perform a run at a specified speed. */
-// for (int m = 0; m < L6470DAISYCHAINSIZE; m++) {
-// motors[m]->prepare_get_speed();
-// }
-//
-// /* Performing the action on each motor at the same time. */
-// results = x_nucleo_ihm02a1->perform_prepared_actions();
-//
-// /* Printing to the console. */
-// printf(" Speed: M1 %d, M2 %d.\r\n", results[0], results[1]);
-//
-// /* Waiting. */
-// wait_ms(DELAY_1);
-//
-//
-// /*----- Doing a full revolution on each motor, one after the other. -----*/
-//
-// /* Printing to the console. */
-// printf("--> Doing a full revolution on each motor, one after the other.\r\n");
-//
-// /* Doing a full revolution on each motor, one after the other. */
-// for (int m = 0; m < L6470DAISYCHAINSIZE; m++) {
-// for (int i = 0; i < MPR_1; i++) {
-// /* Computing the number of steps. */
-// int steps = (int) (((int) init[m].fullstepsperrevolution * pow(2.0f, init[m].step_sel)) / MPR_1);
-//
-// /* Moving. */
-// motors[m]->move(StepperMotor::FWD, steps);
-//
-// /* Waiting while active. */
-// motors[m]->wait_while_active();
-//
-// /* Waiting. */
-// wait_ms(DELAY_1);
-// }
-// }
-//
-// /* Waiting. */
-// wait_ms(DELAY_2);
-//
-//}
+}
\ No newline at end of file