Tobias Berger / Mbed 2 deprecated Robocode

Tobis Programm forked to not destroy your golden files

Dependencies:   mbed

Fork of Robocode by PES 2 - Gruppe 1

source/Movement.cpp

Committer:
cittecla
Date:
2017-04-11
Revision:
44:7118b23b0fd7
Parent:
39:92723f7ea54f

File content as of revision 44:7118b23b0fd7:

/**
 * Movement function library
 * Handels Movement of the Robot
**/

#include "Movement.h"

int moving(){
    
    return 0;
    }
    
int moving_forward_for_distance(){
    
    return 0;
    }
    
int moving_backward_for_distance(){
    
    return 0;
    }
    
int turn_left_for_deg(){
    
    return 0;
    }
    
int turn_right_for_deg(){
    
    return 0;
    }
    
int move_to_next_coord(){
    
    return 0;
    }
    
int move_in_search_for_brick(){
    
    return 0;
    }
    





/*

#include "mbed.h"
#include "movement.h"
#include "EncoderCounter.h"

static double time_counter = 0.0f;
static double timer0 = 0.0f;
static float PID_correction_value = 1.0f;

static float power_value_slow = 0.6f;
static float power_value_medium = 0.7f;
static float power_value_fast = 0.8f;
static float ludicrous_value = 1.0f;

//Motor Encoders
EncoderCounter counterLeft(PB_6, PB_7);
EncoderCounter counterRight(PA_6, PC_7);

//motor stuff
DigitalOut enableMotorDriver(PB_2);
PwmOut pwmL(PA_8);
PwmOut pwmR(PA_9);
DigitalIn motorDriverFault(PB_14);
DigitalIn motorDriverWarning(PB_15);

//DigitalOut led(LED1); // Board LED

DigitalOut led(LED1); // Board LED


// ******************************************************************************

void move_init()
{
    pwmL.period(0.00005f); // Setzt die Periode auf 50 μs
    pwmR.period(0.00005f);

    pwmL.write(0.5f); // Setzt die Duty-Cycle auf 50%
    pwmR.write(0.5f);
    enableMotorDriver = 1;

    PID_correction_value = 1.0f;
    
}
// ******************************************************************************
void move_forward_slow(float correction_value)
{
    pwmL.write(power_value_slow);
    pwmR.write(correction_value);
    printf("Left: %f || Right: %f    value:%f \r\n",pwmL.read(), pwmR.read(), correction_value);

}

void move_forward_medium(float correction_value)
{
    pwmL = power_value_medium;
    pwmR = 1-power_value_medium*correction_value;
}

void move_backward_slow(float correction_value)
{
    pwmL = 1-power_value_slow*correction_value;
    pwmR = power_value_slow;
}

void move_backward_medium(float correction_value)
{
    pwmL = 1-power_value_slow*correction_value;
    pwmR = power_value_slow;

}
// ******************************************************************************

void stop_movement()
{
    pwmL = 0.5f;
    pwmR = 0.5f;
    counterLeft.reset();
    counterRight.reset();
}

void sync_movement(bool speed, bool direction)
{
 if(counterLeft.read() > 30000 || -counterRight > 30000){
     
     }
 printf("Left: %d || Right: %d\r\n",counterLeft.read(), -counterRight.read());
    if(counterLeft.read() > -counterRight.read()) {
        PID_correction_value += 0.001f;
    } else {
        if(counterLeft.read() < -counterRight.read()) {
            PID_correction_value -= 0.001f;
        } else {
            // even 
        }
    }

    if(PID_correction_value < 0.0f) {
        PID_correction_value = 0;
    }
    if(PID_correction_value > 2.0f) {
        PID_correction_value = 2;
    }

// Call movement:
// direction 0 = backward, direction 1 = forward
// speed 0 = slow, speed 1 = medium

    if(direction && speed) {
        move_forward_medium(PID_correction_value);
    }
    if(direction && !speed) {
        float value = 1.0f-power_value_slow*PID_correction_value;
        move_forward_slow(value);
    }
    if(!direction && speed) {
        move_backward_medium(PID_correction_value);
    }
    if(!direction && !speed) {
        move_backward_slow(PID_correction_value);
    }
}

void terminate_movement()
{
    PID_correction_value = 1.0f;
    pwmL.write(0.5f);
    pwmR.write(0.5f);
}
*/