2014 Eurobot fork
Dependencies: mbed-rtos mbed QEI
Processes/AI/ai.cpp
- Committer:
- madcowswe
- Date:
- 2013-04-16
- Revision:
- 84:00c799fd10a7
- Parent:
- 83:223186cd7531
- Child:
- 85:b0858346d838
File content as of revision 84:00c799fd10a7:
#include "ai.h" #include "rtos.h" #include "globals.h" #include "motion.h" #include "Colour.h" #include "supportfuncs.h" #include "Arm.h" #include "MotorControl.h" //TODO: after 2012/2013, kill entire AI layer as it is hacked together. Rest is fine-ish //#define HARDCODED_WAYPOINTS_HACK Colour c_upper(P_COLOR_SENSOR_BLUE_UPPER, P_COLOR_SENSOR_RED_UPPER, P_COLOR_SENSOR_IN_UPPER, UPPER); Colour c_lower(P_COLOR_SENSOR_BLUE_LOWER, P_COLOR_SENSOR_RED_LOWER, P_COLOR_SENSOR_IN_LOWER, LOWER); namespace AI { // starting position #ifdef TEAM_RED ColourEnum own_colour = RED; Waypoint home_wp = {2.7, 1.75, PI, 0.03, 0.05*PI, 32}; #endif #ifdef TEAM_BLUE ColourEnum own_colour = BLUE; Waypoint home_wp = {0.3, 1, 0, 0.03, 0.05*PI, 32}; #endif enum layer { top_layer, bot_layer }; bool delayed_done = true; //TODO: kill struct delayed_struct //TODO: kill { osThreadId tid; Waypoint *wpptr; }; void raise_top_arm(const void *dummy); void raise_bottom_arm(const void *dummy); void delayed_setter(const void *tid_wpptr); //TODO: kill the hack #ifndef HARDCODED_WAYPOINTS_HACK void ailayer(void const *dummy) { RtosTimer top_arm_up_timer(raise_top_arm, osTimerOnce); RtosTimer bottom_arm_up_timer(raise_bottom_arm, osTimerOnce); //NB: reassign ds.wpptr before each invocation //delayed_struct ds = {Thread::gettid(),NULL}; //RtosTimer delayed_wp_set(delayed_setter, osTimerOnce, (void *)&ds); MotorControl::motorsenabled = true; motion::collavoiden = 1; motion::waypoint_flag_mutex.lock(); motion::setNewWaypoint(Thread::gettid(),&home_wp); //go to home motion::waypoint_flag_mutex.unlock(); Thread::signal_wait(0x1); //wait until wp reached MotorControl::motorsenabled = false; arm::upper_arm.go_up(); arm::lower_arm.go_up(); Thread::signal_wait(0x2); //wait for cord // CORD PULLED MotorControl::motorsenabled = true; #ifdef TEAM_BLUE Waypoint mid_wp = {1.8, 1, (1.0/4.0)*PI, 0.03, 0.05*PI, 32}; motion::waypoint_flag_mutex.lock(); motion::setNewWaypoint(Thread::gettid(),&mid_wp); motion::waypoint_flag_mutex.unlock(); Thread::signal_wait(0x1); //wait until wp reached #endif Waypoint approach_wp = {2.2, 1.85, (-3.0f/4.0f)*PI, 0.03, 0.05*PI, 32}; motion::waypoint_flag_mutex.lock(); motion::setNewWaypoint(Thread::gettid(),&approach_wp); motion::waypoint_flag_mutex.unlock(); Thread::signal_wait(0x1); //wait until wp reached Waypoint mutable_cake_wp = {0, 0, 0, 0.01, 0.01*PI, 512}; float r = 0.26+0.35+0.01+0.01; //second 0.01 for being less collisiony with sensors layer layer_to_push = top_layer; float top_target_phi = (180-(11.25+22.5))/180*PI; float bot_target_phi = (180-(7.5+15))/180*PI; float phi = 0; // angle of vector (robot->center of cake) for(int i=0; i<17; ++i) { if (top_target_phi > bot_target_phi) { layer_to_push = top_layer; phi = top_target_phi; top_target_phi -= 22.5/180*PI; } else { layer_to_push = bot_layer; phi = bot_target_phi; bot_target_phi -= 15.0/180*PI; } // set new wp mutable_cake_wp.x = 1.5-r*cos(phi); mutable_cake_wp.y = 2-r*sin(phi); mutable_cake_wp.theta = constrainAngle(phi+PI/2); //arm offset mutable_cake_wp.x += 0.0425*cos(mutable_cake_wp.theta); mutable_cake_wp.y += 0.0425*sin(mutable_cake_wp.theta); motion::waypoint_flag_mutex.lock(); motion::setNewWaypoint(Thread::gettid(),&mutable_cake_wp); motion::waypoint_flag_mutex.unlock(); Thread::signal_wait(0x1); //wait until wp reached if(layer_to_push == top_layer) { ColourEnum colour_read = c_upper.getColour(); if ((colour_read==own_colour) && MotorControl::motorsenabled) { arm::upper_arm.go_down(); top_arm_up_timer.start(1200); } } else { ColourEnum colour_read = c_lower.getColour(); if ((colour_read==own_colour || i==5 || i==7 || i==8 || i==10/*|| colour_read==WHITE*/) && MotorControl::motorsenabled) { arm::lower_arm.go_down(); bottom_arm_up_timer.start(1200); } } Thread::wait(2200); } //////////////////// while(1) Thread::wait(1000); } #else enum action_t {top_push_colour, bot_push_colour, bot_push_white}; void ailayer(void const *dummy) { RtosTimer top_arm_up_timer(raise_top_arm, osTimerOnce); RtosTimer bottom_arm_up_timer(raise_bottom_arm, osTimerOnce); //////////////////////////////////// // put waypoints here //////////////////////////////////// const int wp_num = 3; float x_arr[wp_num] = {1.2,1.5,1.7}; //<-------------------------- float y_arr[wp_num] = {1,1.2,1.4}; //<-------------------------- float theta_arr[wp_num] = {0,PI, PI/2}; //<---------------------- action_t action[wp_num] = {top_push_colour, bot_push_colour, bot_push_white}; //<---------------------------- Waypoint wp_arr[wp_num]; for(int i=0; i<wp_num; ++i) { wp_arr[i].x =x_arr[i]; wp_arr[i].y =y_arr[i]; wp_arr[i].theta =theta_arr[i]; wp_arr[i].pos_threshold = 0.01; wp_arr[i].angle_threshold = 0.01*PI; wp_arr[i].angle_exponent = 512; } //////////////////////////////////// MotorControl::motorsenabled = true; motion::collavoiden = 1; motion::waypoint_flag_mutex.lock(); motion::setNewWaypoint(Thread::gettid(),&home_wp); //go to home motion::waypoint_flag_mutex.unlock(); Thread::signal_wait(0x1); //wait until wp reached MotorControl::motorsenabled = false; arm::upper_arm.go_up(); arm::lower_arm.go_up(); Thread::signal_wait(0x2); //wait for cord // CORD PULLED MotorControl::motorsenabled = true; #ifdef TEAM_BLUE Waypoint mid_wp = {1.8, 1, (1.0/4.0)*PI, 0.03, 0.05*PI, 32}; motion::waypoint_flag_mutex.lock(); motion::setNewWaypoint(Thread::gettid(),&mid_wp); motion::waypoint_flag_mutex.unlock(); Thread::signal_wait(0x1); //wait until wp reached #endif Waypoint approach_wp = {2.2, 1.85, (-3.0f/4.0f)*PI, 0.03, 0.05*PI, 32}; motion::waypoint_flag_mutex.lock(); motion::setNewWaypoint(Thread::gettid(),&approach_wp); motion::waypoint_flag_mutex.unlock(); Thread::signal_wait(0x1); //wait until wp reached for(int i=0; i<wp_num; ++i) { motion::waypoint_flag_mutex.lock(); motion::setNewWaypoint(Thread::gettid(),&(wp_arr[i])); //go to home motion::waypoint_flag_mutex.unlock(); Thread::signal_wait(0x1); //wait until wp reached switch(action[i]) { case top_push_colour: if ((c_upper.getColour()==own_colour) && MotorControl::motorsenabled) { arm::upper_arm.go_down(); top_arm_up_timer.start(1200); } break; case bot_push_colour: if ((c_lower.getColour()==own_colour) && MotorControl::motorsenabled) { arm::lower_arm.go_down(); bottom_arm_up_timer.start(1200); } break; case bot_push_white: if (MotorControl::motorsenabled) { arm::lower_arm.go_down(); bottom_arm_up_timer.start(1200); } break; } Thread::wait(2200); } while(1) Thread::wait(1000); } #endif void raise_top_arm(const void *dummy) { arm::upper_arm.go_up(); } void raise_bottom_arm(const void *dummy) { arm::lower_arm.go_up(); } void delayed_setter(const void *tid_wpptr) //TODO: kill the hack { delayed_struct *dsptr = (delayed_struct *)tid_wpptr; motion::setNewWaypoint(dsptr->tid,dsptr->wpptr); delayed_done = true; } } //namespace