UKESF Headstart Summer School
Modified version of the UKESF lab source which can be carried out with no knowledge of C
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PsiSwarm-Headstart
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UKESF Headstart Summer School
Diff: psiswarm.cpp
- Revision:
- 0:d6269d17c8cf
- Child:
- 1:060690a934a9
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/psiswarm.cpp Thu Feb 04 21:48:54 2016 +0000
@@ -0,0 +1,279 @@
+/* University of York Robotics Laboratory PsiSwarm Library: PsiSwarm Core Source File
+ *
+ * File: psiswarm.cpp
+ *
+ * (C) Dept. Electronics & Computer Science, University of York
+ * James Hilder, Alan Millard, Alexander Horsfield, Homero Elizondo, Jon Timmis
+ *
+ * PsiSwarm Library Version: 0.4
+ *
+ * February 2016
+ *
+ *
+ */
+
+#include "psiswarm.h"
+
+//Setup MBED connections to PsiSwarm Robot
+Serial pc(USBTX,USBRX);
+I2C primary_i2c (p9, p10);
+InterruptIn gpio_interrupt (p12);
+Serial bt(p13, p14);
+AnalogIn vin_current(p15);
+AnalogIn vin_battery(p16);
+AnalogIn vin_dc(p17);
+PwmOut motor_left_f (p21);
+PwmOut motor_left_r (p22);
+PwmOut motor_right_f(p23);
+PwmOut motor_right_r(p24);
+PwmOut center_led_red(p25);
+PwmOut center_led_green(p26);
+Display display; //Connects to i2c(p28,p27), reset(p29), backlight(p30)
+DigitalOut mbed_led1(LED1);
+DigitalOut mbed_led2(LED2);
+DigitalOut mbed_led3(LED3);
+DigitalOut mbed_led4(LED4);
+
+
+float center_led_brightness;
+float backlight_brightness;
+
+Ticker event_handler;
+Timer uptime;
+Timeout pause_usercode_timeout;
+Ticker ultrasonic_ticker;
+Timeout ultrasonic_timeout;
+int timer_minute_count;
+Ticker timer_ticker;
+
+float firmware_version;
+char robot_id;
+char previous_robot_id;
+
+char wheel_encoder_byte;
+char previous_wheel_encoder_byte;
+signed int left_encoder;
+signed int right_encoder;
+
+char time_based_motor_action = 0;
+
+char testing_voltage_regulators_flag = 1;
+char power_good_motor_left = 2;
+char power_good_motor_right = 2;
+char power_good_infrared = 2;
+char status_dc_in = 2;
+char status_charging = 2;
+
+char switch_byte;
+char previous_switch_byte;
+
+char debug_mode = DEBUG_MODE;
+char debug_output = DEBUG_OUTPUT_STREAM;
+
+char firmware_bytes[21];
+
+int base_colour_sensor_raw_values [4];
+int top_colour_sensor_raw_values [4];
+
+char waiting_for_ultrasonic = 0;
+int ultrasonic_distance = 0;
+char ultrasonic_distance_updated = 0;
+
+
+float line_position = 0;
+char line_found = 0;
+
+unsigned short background_ir_values [8];
+unsigned short illuminated_ir_values [8];
+float reflected_ir_distances [8];
+char ir_values_stored = 0;
+unsigned short background_base_ir_values [5];
+unsigned short illuminated_base_ir_values [5];
+char base_ir_values_stored = 0;
+
+float motor_left_speed;
+float motor_right_speed;
+char motor_left_brake;
+char motor_right_brake;
+
+char demo_on = 0;
+char event = 0;
+char change_id_event = 0;
+char encoder_event = 0;
+char switch_event = 0;
+char user_code_running = 0;
+char user_code_restore_mode = 0;
+char system_warnings = 0;
+
+
+vector<string> basic_filenames; //filenames are stored in a vector string
+char psi_basic_file_count = 0;
+char use_flash_basic = 0;
+char file_transfer_mode = 0;
+
+int ir_pulse_delay = DEFAULT_IR_PULSE_DELAY;
+int base_ir_pulse_delay = DEFAULT_BASE_IR_PULSE_DELAY;
+
+
+/**
+ * init()
+ *
+ * Main initialisation routine for the PsiSwarm robot
+ *
+ * Set up the GPIO expansion ICs, launch demo mode if button is held
+ */
+void init()
+{
+ firmware_version=0;
+ timer_minute_count = 0;
+ timer_ticker.attach(&IF_update_minutes, 300);
+ uptime.start();
+ primary_i2c.frequency(400000);
+ IF_setup_serial_interfaces();
+ debug("PsiSwarm Robot Library %1.2f\n\n",SOFTWARE_VERSION_CODE);
+ debug("- Setting up serial interface\n");
+ debug("- Reading firmware: ");
+ if(read_firmware() == 1){
+ debug("Version %3.2f\n",firmware_version);
+ }else debug("INVALID\n");
+
+ if(ENABLE_BASIC == 1){
+ read_list_of_file_names();
+ if(psi_basic_file_count == 0){
+ debug("- No PsiBasic files found\n");
+ }
+ else use_flash_basic = 1;
+ }
+ debug("- Setting up PIC microcontroller\n");
+ // IF_check_pic_firmware();
+ debug("- Setting up LED drivers\n");
+ IF_init_leds();
+ if(IF_setup_led_expansion_ic() != 0) {
+ debug("- WARNING: No I2C acknowledge for LED driver\n");
+ system_warnings += 1;
+ }
+ debug("- Setting up motor drivers\n");
+ IF_init_motors();
+ debug("- Setting up GPIO expansion\n");
+ reset_encoders();
+ IF_setup_gpio_expansion_ic();
+ debug("- Setting up temperature sensor\n");
+ IF_setup_temperature_sensor();
+ debug("- Setting up base colour sensor\n");
+ IF_check_base_colour_sensor();
+ debug("- Setting up ultrasonic sensor\n");
+ //enable_ultrasonic_ticker();
+ debug("- Robot ID: %d\n",robot_id);
+ char switchstate = IF_get_switch_state();
+ debug("- Switch State : %d\n",switchstate);
+ debug("- Battery Voltage: %1.3fV\n",get_battery_voltage());
+ debug("- DC Voltage : %1.3fV\n",get_dc_voltage());
+ debug("- Current Draw : %1.3fA\n",get_current());
+ debug("- Temperature : %1.3fC\n",get_temperature());
+ char demo = 0;
+ if(ENABLE_DEMO == 1 && switchstate > 0) demo=1;
+ display.init_display(demo);
+ event_handler.attach_us(&IF_handle_events, 1000);
+ if(demo > 0){
+ debug("- Demo mode button is pressed\n");
+ wait(1.0);
+ demo = IF_get_switch_state();
+ if(demo > 0) demo_mode();
+ display.init_display(0);
+ }
+}
+
+void IF_update_minutes(){
+ uptime.reset();
+ timer_minute_count += 5;
+}
+
+void IF_handle_events()
+{
+ // This is the main 'operating system' thread that handles events from robot stimuli
+ // By default it is run every 1ms and checks if there are events to handle
+ if(event > 0){
+ // There are some events to handle. We don't handle all events in every loop to keep the system responsive, instead they are priorised.
+ if(encoder_event == 1){
+ // The encoders have changed; update the encoder values
+ IF_update_encoders();
+ encoder_event = 0;
+ event--;
+ } else {
+ if(switch_event == 1){
+ IF_update_switch();
+ switch_event = 0;
+ event--;
+ }
+ if(change_id_event == 1){
+ // The user ID for the robot has been changed
+ IF_update_user_id();
+ change_id_event = 0;
+ event--;
+ }
+ }
+ }
+}
+
+void IF_update_encoders()
+{
+ char rwep = previous_wheel_encoder_byte >> 2;
+ char rwe = wheel_encoder_byte >> 2;
+ char lwep = previous_wheel_encoder_byte % 4;
+ char lwe = wheel_encoder_byte % 4;
+ //pc.printf("L:%d P:%d R:%d P:%d \n",lwe,lwep,rwe,rwep);
+ if(lwe == 0 && lwep==1) left_encoder++;
+ if(lwe == 0 && lwep==2) left_encoder--;
+ if(rwe == 0 && rwep==1) right_encoder++;
+ if(rwe == 0 && rwep==2) right_encoder--;
+ if(left_encoder % 100 == 0) pc.printf("L:%d\n",left_encoder);
+}
+
+void IF_update_user_id()
+{
+}
+
+void IF_update_switch()
+{
+ // The user switch has changed state
+ // In this implementation we will only act on positive changes (rising edges)
+ // Subtracting new_state from (new_state & old_state) gives the positive changes
+ char positive_change = switch_byte - (switch_byte & previous_switch_byte);
+ if(demo_on) demo_handle_switch_event(positive_change);
+ else handle_switch_event(positive_change);
+}
+
+void reset_encoders()
+{
+ left_encoder = 0;
+ right_encoder = 0;
+}
+
+void debug(const char* format, ...)
+{
+ char buffer[256];
+ if (debug_mode){
+ va_list vl;
+ va_start(vl, format);
+ vsprintf(buffer,format,vl);
+ if(debug_output & 2) bt.printf("%s", buffer);
+ if(debug_output & 1) pc.printf("%s", buffer);
+ if(debug_output & 4) display.debug_page(buffer,strlen(buffer));
+ va_end(vl);
+ }
+}
+
+float get_uptime(void)
+{
+ return uptime.read() + (timer_minute_count * 60);
+}
+
+void pause_user_code(float period){
+ user_code_restore_mode = user_code_running;
+ user_code_running = 0;
+ pause_usercode_timeout.attach(&IF_end_pause_user_code, period);
+}
+
+void IF_end_pause_user_code(){
+ user_code_running = user_code_restore_mode;
+}
\ No newline at end of file