hank zhang
update curtain sample
Dependencies: mbed-STM32F103C8T6_new
Diff: main.cpp
- Revision:
- 2:f48b0967b6cc
- Parent:
- 1:0fe432e5dfc4
- Child:
- 3:30d61fa10b98
--- a/main.cpp Wed Apr 15 11:36:03 2020 +0000
+++ b/main.cpp Thu Apr 16 07:15:00 2020 +0000
@@ -1,357 +1,46 @@
#include "mbed.h"
-//#include "rtos.h"
#include "stm32f103c8t6.h"
-#include "ATCmdParser.h"
-#include "UARTSerial.h"
-//#include "Thread.h"
-
-DigitalOut MOTOA1(PB_4);
-DigitalOut MOTOB1(PB_5);
-
-DigitalOut MOTOA2(PB_8);
-DigitalOut MOTOB2(PB_9);
-
-Serial debug_uart(PB_10, PB_11);
-
-AnalogIn SensorCurrent(PA_0);
-
-AnalogIn BatteryVoltage(PA_1);
-
-void motor1_move(uint8_t dir);
-void motor2_move(uint8_t dir);
-
-void system_init();
-
-UARTSerial *_serial;
-
-//Thread thread1,thread2,thread3;
-
-#if 1
-
-uint8_t sensor_cnt,cal_cnt;
-uint8_t dir;
-float sense_value;
-uint8_t ov_flag, init_flag, motor1_ready_flag, motor2_ready_flag, sensor_flag;
-#endif
-
-void sensor_capture_cb(void){
- sensor_cnt++;
-}
-
-#define MAX_LENGTH_STEPS 55
-#define MIN_LENGTH_STEPS 10
-#define MOVING_UP 1
-#define MOVING_DOWN 2
-#define MOVING_FORWARD 1
-#define MOVING_BACKWARD 2
-#define STOP 0
-
-#if 1
-
-void Power_thread(void const *argument){/*detect current*/
- uint8_t i = 0;
- while(true){
- Thread::wait(500); /*unit millisec*/
- //debug_uart.printf("Power_thread 11111111111111\r\n");
- //debug_uart.printf("sensor_cnt = %d\r\n", sensor_cnt);
- sense_value = SensorCurrent.read();
- //debug_uart.printf("current sense_value2 =%0.4f \r\n", sense_value);
- if((sense_value>0.8)&&sensor_flag){
- debug_uart.printf("sense_value = %0.4f > 0.4 \r\n", sense_value);
- ov_flag = 1;
- //if(motor2_ready_flag){
- //motor2_ready_flag = 0;
- //while(1){motor1_move(STOP);}
- //}
- }
- }
-}
+DigitalOut led1(PC_13);
-void Motor1_thread(void const *argument){/*detect current*/
- uint8_t i;
- while(true){
- Thread::wait(300); /*unit millisec*/
- if(motor2_ready_flag){
- sensor_cnt = 0;
- motor1_move(MOVING_FORWARD);
- wait(1);
- sensor_flag = 1;
- while(!ov_flag){debug_uart.printf("xxxxxxxxxxxxxxxxx \r\n"); wait(1);}
- motor1_move(STOP);
- debug_uart.printf("overcurrent detected \r\n");
- ov_flag = 0;
- motor2_ready_flag = 0;
- cal_cnt = sensor_cnt;
- debug_uart.printf("calibration done \r\n");
- debug_uart.printf("calibrated cnt is %d \r\n", cal_cnt);
- wait(2);
- debug_uart.printf("back to origianl position, motor1_ready_flag = 1\r\n");
- motor1_ready_flag = 1;
- while(1){
- if(motor2_ready_flag){break;}else{
- wait(1);
- debug_uart.printf("thread2----wait for motor2 ready\r\n"); //wait(1);
- }
- }
- motor2_ready_flag = 0;
- sensor_cnt = 0;
- sensor_flag = 0;
- motor1_move(MOVING_BACKWARD);
- debug_uart.printf("current cal_cnt is %d\r\n", cal_cnt);
- //while(sensor_cnt<(cal_cnt-10)){debug_uart.printf("sensor cnt is %d\r\n", sensor_cnt);}
- while(1){
- if(sensor_cnt>(cal_cnt-10)){break;}else{
- wait_ms(10);
- //debug_uart.printf("sensor cnt is %d \r\n", sensor_cnt);
- }
- }
- debug_uart.printf("xxxxxxxxxx----------sensor cnt is %d \r\n", sensor_cnt);
- //debug_uart.printf("sensor cnt is higher than equal cal_cnt - 10 \r\n");
- motor1_move(STOP);
- wait(2);
- motor1_ready_flag = 1;
- //if(ov_flag){ov_flag = 0;}
- }
- }
-}
-
-void Motor2_thread(void const *argument){/*detect current*/
- uint8_t sta1,sta2;
- DigitalIn Stopper1(PA_13);
- DigitalIn Stopper2(PA_15);
+Serial pc(PA_9,PA_10);
- while(true){
- Thread::wait(300); /*unit millisec*/
- if(!init_flag){
- #if 1
- wait(1);
- debug_uart.printf("thread 2 start \r\n");
- motor2_move(MOVING_UP);
- while(Stopper1){;}
- motor2_move(STOP);
- debug_uart.printf("up stopper1 triggered \r\n");
- //init_flag = 1;
- motor2_ready_flag = 1;
- wait(1);
- //while(!motor1_ready_flag){debug_uart.printf("wait for motor1 ready\r\n");wait(1);}
- while(1){
- if(motor1_ready_flag){break;}else{
- wait(1);
- debug_uart.printf("thread2----wait for motor1 ready \r\n");
- }
- }
- debug_uart.printf("motor1 is ready\r\n");
- motor1_ready_flag = 0;
- motor2_move(MOVING_DOWN);
- while(Stopper2){;}
- motor2_move(STOP);
- debug_uart.printf("down stopper1 triggered \r\n");
- motor2_ready_flag = 1;
- init_flag = 1;
- //while(!motor1_ready_flag){debug_uart.printf("wait for finish\r\n");wait(1);}
- while(1){
- if(motor1_ready_flag){break;}else{
- wait(1);
- debug_uart.printf("thread2----wait for motor1 ready \r\n");
- }
- }
- debug_uart.printf("move motor2 to center\r\n");
- motor2_move(MOVING_UP);
- wait(1.5);
- motor2_move(STOP);
- debug_uart.printf("motor2 thread done\r\n");
- #endif
- }
- }
-}
-
-
-#endif
-
-int main(){
- wait(2);
-
- system_init();
-
- InterruptIn Hall1(PA_14);
- //InterruptIn Hall2(PB_3);
- Hall1.fall(callback(sensor_capture_cb)); // Attach ISR to handle button press event
- //Hall2.fall(callback(sensor_capture_cb)); // Attach ISR to handle button press event
- debug_uart.printf("Hall1 init done\r\n");
-
- //Thread thread1(osPriorityNormal,2048,Power_thread, NULL); /*check the real-time current*/
-
- #if 0
- thread1.start(Power_thread);
- debug_uart.printf("thread1~~~~~~~~~~~~~~~~\r\n");
- thread2.start(Motor1_thread);
- debug_uart.printf("thread2~~~~~~~~~~~~~~~~\r\n");
- thread3.start(Motor2_thread);
- debug_uart.printf("thread3~~~~~~~~~~~~~~~~\r\n");
- #endif
-
- #if 1
-
- Thread thread1(Power_thread, NULL, osPriorityNormal, 2048);
- Thread thread2(Motor1_thread, NULL, osPriorityNormal, 2048);
- Thread thread3(Motor1_thread, NULL, osPriorityNormal, 2048);
- #endif
-
- #if 0
- debug_uart.printf("thread1~~~~~~~~~~~~~~~~\r\n");
- Thread thread2(osPriorityNormal,2048,Motor1_thread, NULL); /*check the real-time current*/
- //Thread thread2(Motor1_thread, NULL, osPriorityNormal, 512); /*check the real-time current*/
- debug_uart.printf("thread2~~~~~~~~~~~~~~~~\r\n");
- Thread thread3(osPriorityNormal,2048,Motor2_thread,NULL); /*check the real-time current*/
- //Thread thread3(Motor2_thread, NULL, osPriorityNormal, 512); /*check the real-time current*/
- debug_uart.printf("thread3~~~~~~~~~~~~~~~~\r\n");
- #endif
-
-
-
- init_flag = 0;
- //motor2_ready_flag = 1;
- //motor2_move(MOVING_DOWN);
- while(1){
- //debug_uart.printf("~~~~~~~~~~~~~~\r\n");
- wait(1);
- //sense_value = SensorCurrent.read();
- debug_uart.printf("current sense_value2 =%0.4f \r\n", sense_value);
+
+void led2_thread() {
+ while (true) {
+ pc.printf("led2_thread\r\n");
+ thread_sleep_for(4000);
}
}
-
-
-
-void motor1_move(uint8_t dir){/*main motor*/
- if(dir==1){/*forward*/
- MOTOA1 = 0;
- MOTOB1 = 1;
- }else if(dir==2){/*backward*/
- MOTOA1 = 1;
- MOTOB1 = 0;
- }else{ /*stop*/
- MOTOA1 = 0;
- MOTOB1 = 0;
- }
-}
-
-void motor2_move(uint8_t dir){/*assistant motor*/
- if(dir==1){/*up*/
- MOTOA2 = 0;
- MOTOB2 = 1;
- }else if(dir==2){/*down*/
- MOTOA2 = 1;
- MOTOB2 = 0;
- }else{ /*stop*/
- MOTOA2 = 0;
- MOTOB2 = 0;
- }
-}
+void led1_thread() {
+ while (true) {
+ pc.printf("led1_thread\r\n");
+ thread_sleep_for(3000);
+ }
+}
-void system_init(){
-
- debug_uart.baud(115200);
- /*
- lcdBus.write(0x00);
- TFTRD = 0;
- TFTWR = 0;
- TFTDC = 0;
- TFTCS = 0;
- */
- MOTOA1 = 0;
- MOTOB1 = 0;
- MOTOA2 = 0;
- MOTOB2 = 0;
- init_flag = 0;
- motor1_ready_flag = 0;
- motor2_ready_flag = 0;
- sense_value = 0;
- sensor_flag = 0;
-
- debug_uart.printf("system init done\r\n");
-
-}
-#if 0
-void wifi_debug(){
- wifi_uart.baud(115200);
- debug_uart.baud(115200);
- WIFI_PWREN = 1;
- while(1){
- if(wifi_uart.readable()){
- debug_uart.putc(wifi_uart.getc());
+void led0_thread() {
+ while (true) {
+ pc.printf("led0_thread\r\n");
+ thread_sleep_for(2000);
}
- if(debug_uart.readable()){
- wifi_uart.putc(debug_uart.getc());
- }
- }
}
-void bt_debug(){
- bt_uart.baud(9600);
- debug_uart.baud(9600);
- while(1){
- if(bt_uart.readable()){
- debug_uart.putc(bt_uart.getc());
- }
- if(debug_uart.readable()){
- bt_uart.putc(debug_uart.getc());
+int main() {
+ pc.baud(115200);
+ pc.printf("hello world\r\n");
+
+ Thread thread0(osPriorityNormal, 512, nullptr, nullptr);
+ Thread thread1(osPriorityNormal, 512, nullptr, nullptr);
+ Thread thread2(osPriorityNormal, 512, nullptr, nullptr);
+
+ thread0.start(led0_thread);
+ thread1.start(led1_thread);
+ thread2.start(led2_thread);
+
+ while (true) {
+ //led1 = !led1;
+ thread_sleep_for(5000);
+ pc.printf("+++++main task++++++\r\n");
}
- }
-}
-void lcd_debug(){
- char i = 0;
- unsigned char str[] = "bob's test";
- unsigned char str2[] = "hello world";
- ST7789V_Init();
- BlockWrite(0,COL-1,0,ROW-1);
- LCD_block_test();
- //DispColor(GREEN);
- DispStr(str, 40, 80, BLUE, GREEN);
- DispStr(str2, 40, 120, BLUE, GREEN);
- //DispOneChar(0x32,60,60,BLUE,GREEN);
- while(1){
- ;
- }
-}
-
-void sht20_debug(){
- while(1) {
- int temperature = sht.readTemp();
- debug_uart.printf("Temperature is: %d \t", temperature);
- int humidity= sht.readHumidity();
- debug_uart.printf("Humidity: %d \r\n",humidity);
- wait(2);
- }
-}
-
-void eeprom_debug(){
- char ucdata_write[1];
- if (!i2c.write((MCP24AA02_ADDR|WRITE), ucdata_write, 1, 0)){
- //readID(MCP24AA02_MID);
- //readID(MCP24AA02_DID);
- //Uncomment the following 6 lines of code to write Data into the EEPROM
- /*
- writeEE(0x00,0x4D); // ASCII M
- writeEE(0x01,0x61); // ASCII a
- writeEE(0x02,0x72); // ASCII r
- writeEE(0x03,0x74); // ASCII t
- writeEE(0x04,0x69); // ASCII i
- writeEE(0x05,0x6E); // ASCII n
- debug_uart.printf("\n\r");
- */
- //Uncomment the following line to Erase the EEPROM
- // eraseEE();
- #if 1
- for (int i=2;i<=0x7;i++){readEE(i);}
- debug_uart.printf("\r\n");
- #endif
- }else{
- debug_uart.printf("\n\rCannot get an ACK from the Device check connections!\n\r");
- }
-}
-
-#endif
-
-
-
+}
\ No newline at end of file