Science Memeseum
ft. button press reset
Dependencies: mbed
Fork of
BeaconDemo_RobotCodeNew
by 
James O'Keeffe
Diff: main.cpp
- Revision:
- 10:1b09d4bb847b
- Parent:
- 9:085e090e1ec1
- Child:
- 11:7b3ee540ba56
--- a/main.cpp Mon Oct 26 11:16:05 2015 +0000
+++ b/main.cpp Mon Oct 26 23:58:08 2015 +0000
@@ -10,22 +10,21 @@
***********************************************************************/
/// PsiSwarm Beautiful Meme Project Source Code
-/// Version 0.1
+/// Version 0.2
/// James Hilder, Alan Millard, Homero Elizondo, Jon Timmis
/// University of York
-
+/// Include main.h - this includes psiswarm.h all the other necessary core files
+#include "main.h"
-/// Include psiswarm.h - this includes all the other necessary core files
-
-#include "psiswarm.h"
+char * program_name = "B-Meme";
+char * author_name = "YRL";
+char * version_name = "0.2";
// IMPORTANT!!!
// Do not call the IR functions at all as they will interfere with the correct operation of this program
// Instead, use the values held in the variables below; they are updated every 500ms
-
-
char beacon_found = 0; // This will be a 1 when a beacon was detected during the previous 500ms window
int beacon_heading = 0; // This is the heading from the last time a beacon was detected
char robots_found[8]; // These will be a 1 when the respective robot [excluding self] was detected during the previous 500ms window
@@ -34,96 +33,61 @@
unsigned short reflected_sensor_data[8]; // The reflected IR values when this robots emitters are on
unsigned short background_sensor_data[8];// The raw IR values when no robot (or beacon) should have its IR on
-char * program_name = "B-Meme";
-char * author_name = "YRL";
-char * version_name = "1.0";
-
+char default_normal_program = 3; // The program to run on turn on (after 'face beacon' program)
+char use_recharging_program = 1; // Set to 1 to force robot to run recharging program when battery voltage drops below a threshold
char user_code_debug = 1; // Set to 1 to show terminal messages from "out" function [specific to this code]
-char display_debug_inf = 1; // Set to 1 to show debug info on display
-char main_program_state;
-char old_program_state = 255;
-char step_cycle = 0;
-char success_count = 0;
-char target_reached = 0;
-char was_turning = 0;
+char display_debug_inf = 0; // Set to 1 to show debug info about beacon\robots on display [instead of running program info]
+char main_program_state; // Index of the currently running program
+char program_changed = 0; // Flag to update display when program is changed
+char success_count = 0; // Flag to indicate the success of a program
+char step_cycle = 0; // Alternates between 0 and 1 in successive time-steps
+char target_reached = 0; // Flag to indicate if a program target has been reached
+char prog_name [17]; // Stores the name of the running program [line 0 on the display]
+char prog_info [17]; // Stores information about the current state of the program [line 1 on the display]
+char disable_ir_emitters = 0; // Used to disable IR emission during charging etc [use with caution!]
+char recharging_state = 0; // Stores the state of the recharging program (0 is not currently running)
Ticker main_loop_ticker;
-
-///This is the main loop for the Beautiful Meme code. The code block is run once every 500mS* once all the IR samples have been collected.
+///This is the main loop for the Beautiful Meme code. The code block is run once every 250mS* [with 4Hz beacon] once all the IR samples have been collected.
void main_loop()
{
+ if(use_recharging_program == 1)recharging_program();
update_display();
- switch(main_program_state) {
- case 0: //Case 0 is the initial program: turn to face beacon
- if(step_cycle == 0) {
- char turn_status = turn_to_bearing(0);
- if(turn_status == 0) {
- success_count ++;
- if(success_count > 1) main_program_state = 1;
- } else success_count = 0;
- }
- break;
- case 1:
- target_reached = 0;
- head_to_bearing_program(0);
- if(target_reached == 1) main_program_state = 2;
- break;
- case 2:
- target_reached = 0;
- head_to_bearing_program(180);
- if(target_reached == 1) main_program_state = 1;
- break;
+ if(recharging_state == 0) {
+ switch(main_program_state) {
+ case 0: //Case 0 is the initial program: turn to face beacon
+ if(step_cycle == 0) {
+ char turn_status = turn_to_bearing(0);
+ if(turn_status == 0) {
+ success_count ++;
+ if(success_count > 1) set_program(default_normal_program);
+ } else success_count = 0;
+ }
+ break;
+ case 1:
+ target_reached = 0;
+ head_to_bearing_program(0);
+ if(target_reached == 1) set_program(2);
+ break;
+ case 2:
+ target_reached = 0;
+ head_to_bearing_program(180);
+ if(target_reached == 1) set_program(1);
+ break;
+ case 3:
+ curved_random_walk_with_interaction_program();
+ break;
+ case 4:
+ straight_random_walk_with_interaction_program();
+ break;
+ case 5:
+ find_space_program();
+ break;
+ }
}
step_cycle=1-step_cycle;
}
-
-//The head to bearing program moves towards a given bearing (eg 0 for the beacon or 180 for the opposite wall) and keeps going until an obstacle is detected in front of it
-void head_to_bearing_program(int target_bearing)
-{
- if(step_cycle == 0 || was_turning == 0) {
- // Check if we are heading in the right bearing (+- 25 degrees)
- int current_bearing = (360 - beacon_heading) % 360;
- // Current bearing should range from 0 to 359; target_bearing likewise; check the are within 25 degrees of each other
- char bearing_ok = 0;
- int lower_bound = target_bearing - 25;
- int upper_bound = target_bearing + 25;
- if(lower_bound < 0) {
- if(current_bearing > (lower_bound + 360) || current_bearing < upper_bound) bearing_ok = 1;
- } else if(upper_bound > 359) {
- if(current_bearing > lower_bound || current_bearing < (upper_bound - 360)) bearing_ok = 1;
- } else if(current_bearing > lower_bound && current_bearing < upper_bound) bearing_ok = 1;
- // Check if there is an obstacle in front of us
- if((reflected_sensor_data[7] > 1000 || reflected_sensor_data[0] > 1000) && bearing_ok == 1) target_reached = 1;
- else {
- // Now move forward if we are facing correct bearing, otherwise turn
- if(bearing_ok == 1) {
- //Check if anything is in front of us to determine speed - if it is, move slowly
- int t_time = 6 * BEACON_PERIOD;
- float t_speed = 1.0;
- if(reflected_sensor_data[7] > 150 || reflected_sensor_data[0] > 150) {
- t_time = 4 * BEACON_PERIOD;
- t_speed = 0.6;
- }
- if(reflected_sensor_data[7] > 300 || reflected_sensor_data[0] > 300) {
- t_time = 3 * BEACON_PERIOD;
- t_speed = 0.4;
- }
- if(reflected_sensor_data[7] > 500 || reflected_sensor_data[0] > 500) {
- t_time = 2 * BEACON_PERIOD;
- t_speed = 0.2;
- }
- time_based_forward(t_speed,t_time,0);
- was_turning = 0;
- } else {
- turn_to_bearing(target_bearing);
- was_turning = 1;
- }
- }
- }
-}
-
-
///Place user code here that should be run after initialisation but before the main loop
void user_code_setup()
{
@@ -144,9 +108,9 @@
}
start_infrared_timers();
main_loop_ticker.attach_us(&main_loop,BEACON_PERIOD * 10);
- main_program_state = 1;
+ set_program(0);
set_leds(0x00,0x00);
- set_center_led(3,1);
+ set_center_led(3,0.5);
display.clear_display();
display.set_position(0,0);
display.write_string("BEACON FOUND AT");
@@ -177,36 +141,70 @@
}
}
+char * get_program_name(int index)
+{
+ char * ret_name = new char[17];
+ switch(index){
+ case 0:
+ strcpy(ret_name,"FACE BEACON");
+ break;
+ case 1:
+ strcpy(ret_name,"HEAD TO BEACON");
+ break;
+ case 2:
+ strcpy(ret_name,"HEAD TO SOUTH");
+ break;
+ case 3:
+ strcpy(ret_name,"RANDOM WALK 1");
+ break;
+ case 4:
+ strcpy(ret_name,"RANDOM WALK 2");
+ break;
+ case 5:
+ strcpy(ret_name,"FIND SPACE");
+ break;
+ }
+ return ret_name;
+}
+
+void set_program(int index)
+{
+ main_program_state = index;
+ program_changed = 1;
+ strcpy(prog_info,"");
+ strcpy(prog_name,get_program_name(index));
+}
+
+void set_program_info(char * info)
+{
+ strcpy(prog_info,info);
+ program_changed = 1;
+}
void update_display()
{
- if(main_program_state != old_program_state) {
- old_program_state = main_program_state;
+ if(program_changed == 1) {
+ program_changed = 0;
display.clear_display();
- display.set_position(0,0);
- switch(main_program_state) {
- case 0:
- display.write_string("P:FACE BEACON");
- break;
- case 1:
- display.write_string("P:HEAD TO BEACON");
- break;
- case 2:
- display.write_string("P:HEAD TO SOUTH");
- break;
+
+ if(display_debug_inf==1) display_debug_info();
+ else{
+ display.set_position(0,0);
+ display.write_string(prog_name);
}
+ display.set_position(1,0);
+ display.write_string(prog_info);
}
- if(display_debug_inf==1) display_debug_info();
}
void display_debug_info()
{
char disp_line[16] = "- - - - - - - -";
if(beacon_found==1)disp_line[0]='B';
- for(int i=0; i<7; i++) {
- if(robots_found[i])disp_line[((i+1)*2)]=49+i;
+ for(int i=1; i<8; i++) {
+ if(robots_found[i])disp_line[((i)*2)]=48+i;
}
- display.set_position(1,0);
+ display.set_position(0,0);
display.write_string(disp_line);
}