battletank/dozer_main.cpp

#include <util/delay.h>
#include <avr/io.h>
#include <stdio.h>
#include <stdarg.h>
#include <util/setbaud.h>
#include <Arduino.h>
#include <lib.h>
#include <SoftPWM.h>

#include <SPI.h>
#include <nRF24L01.h>
#include <RF24.h>

#define CE_PIN 3
#define CS_PIN 2
#define RED 4
#define GREEN 5

class Radio {

public:
    RF24 instance;

};

class Motor {

public:
    int power;
};


const uint64_t dozer_pipe = 0xF0F0F0F0D2LL;
const uint64_t remote_pipe = 0xF0F0F0F0E1LL;

#pragma pack(8)
struct StickValues {
    int16_t stick_1_y;
    int16_t stick_1_x;
    int16_t stick_2_y;
    int16_t stick_2_x;
};

#define R_TRK_FWD 18
#define L_TRK_FWD 17
#define R_TRK_BKW 19
#define L_TRK_BKW 16
#define BKT_FWD   15
#define BKT_BKW   14


int main() {
    init();
    initVariant();
    SPI.begin();
    Serial.begin(9600);

    pinMode(GREEN, OUTPUT);
    pinMode(RED, OUTPUT);

    SoftPWMBegin();

    SoftPWMSet(R_TRK_FWD, 0); // bucket
    SoftPWMSet(L_TRK_FWD, 0); // bucket
    SoftPWMSet(R_TRK_BKW, 0); // left track backward
    SoftPWMSet(L_TRK_BKW, 0); // left track forward
    SoftPWMSet(BKT_FWD  , 0); // right track backward
    SoftPWMSet(BKT_BKW  , 0); // right track forward

    RF24 radio(CE_PIN, CS_PIN);
    radio.begin();
    radio.setPALevel (RF24_PA_MAX);
    radio.setChannel(100);
    radio.setDataRate(RF24_1MBPS);
    radio.openWritingPipe(dozer_pipe);
    radio.openReadingPipe(1, remote_pipe);
    radio.startListening();

    bool breaking = false;
    int cycles = 0;

    while (!breaking) {

        bool timeout = false;

        while (!radio.available()) {
            delay(5);
            if (cycles++ > 10) {
              //  digitalWrite(RED, HIGH);
                _delay_ms(1);
               // digitalWrite(RED, LOW);
                _delay_ms(1);
                timeout = true;
                cycles = 0;
                break;
            }
        }

        if (timeout) {
            SoftPWMSet(14, 0); // bucket
            SoftPWMSet(15, 0); // bucket
            SoftPWMSet(16, 0); // left track backward
            SoftPWMSet(17, 0); // left track forward
            SoftPWMSet(19, 0); // right track backward
            SoftPWMSet(18, 0); // right track forward
        } else {
            cycles = 0;
            StickValues stick_values{};
            if (radio.read(&stick_values, sizeof(int16_t)*4)) {
//                digitalWrite(GREEN, HIGH);
//                _delay_ms(5);
//                digitalWrite(GREEN, LOW);
//                _delay_ms(5);
                //Serial.println((int16_t)stick_values.stick_1_y);
            }

            radio.flush_rx();

            if (stick_values.stick_2_y > 10) {
                digitalWrite(GREEN, HIGH);
                digitalWrite(RED, LOW);
            } else if (stick_values.stick_2_y < -10) {
                digitalWrite(RED, HIGH);
                digitalWrite(GREEN, LOW);
            } else {
                digitalWrite(RED, LOW);
                digitalWrite(GREEN, LOW);
            }


            float mag = sqrt(pow(stick_values.stick_1_x, 2) + pow(stick_values.stick_1_y, 2));
            float ang = DEG(atan2((float)stick_values.stick_1_x, (float)stick_values.stick_1_y)) + 180;

            int right_track = 0;
            int left_track = 0;

            if (ang >= 0 && ang < 90 && mag > 1) { // Bottom to Left Quad. RT:F
                if (ang < 0 + FULL_SPEED_ZONE)
                    right_track = (int)(-100.0 * (mag/MAG_SCALER_H));
                else if (ang > 90 - FULL_SPEED_ZONE)
                    right_track = (int)(100.0 * (mag/MAG_SCALER_H));
                else // split it (and mult) so it's ranged between -100, 100 then mag it
                    right_track = ((0 + 45) - ang) * MAGIC_45_2_100 * (mag/MAG_SCALER_H);

                left_track = (int)(-100.0 * (mag/MAG_SCALER_H));
            }
            if (ang >= 90 && ang < 180 && mag > 1) { // Top to Left Quad. RT:F, LT:S
                right_track = (int)(100.0 * (mag/MAG_SCALER_H));

                if (ang < 90 + FULL_SPEED_ZONE)
                    left_track = (int)(-100.0 * (mag/MAG_SCALER_H));
                else if (ang > 180 - FULL_SPEED_ZONE)
                    left_track = (int)(100.0 * (mag/MAG_SCALER_H));
                else
                    left_track = ((90 + 45) - ang) * MAGIC_45_2_100 * (mag/MAG_SCALER_H);
            }
            if (ang >= 180 && ang < 270 && mag > 1) { // Top to Right Quad
                if (ang < 180 + FULL_SPEED_ZONE)
                    right_track = (int)(100.0 * (mag/MAG_SCALER_H));
                else if (ang > 270 - FULL_SPEED_ZONE)
                    right_track = (int)(-100.0 * (mag/MAG_SCALER_H));
                else
                    right_track = ((180 + 45) - ang) * MAGIC_45_2_100 * (mag/MAG_SCALER_H);

                left_track = (int)(100.0 * (mag/MAG_SCALER_H));
            }
            if (ang >= 270 && ang <= 360 && mag > 1) { // Bottom to Right Quad
                right_track = (int)(100.0 * (mag/MAG_SCALER_H)) * -1;

                if (ang < 270 + FULL_SPEED_ZONE)
                    left_track = (int)(100.0 * (mag/MAG_SCALER_H));
                else if (ang > 360 - FULL_SPEED_ZONE)
                    left_track = (int)(100.0 * (mag/MAG_SCALER_H)) * -1;
                else
                    left_track = ((270 + 45) - ang) * MAGIC_45_2_100 * (mag/MAG_SCALER_H);
            }

            if (stick_values.stick_2_y > 5) {
                SoftPWMSet(BKT_FWD, 255);
                SoftPWMSet(BKT_BKW, 0);
                //SoftPWMSet(BKT_FWD, max(0, min(255, abs(stick_values.stick_2_y))));
                //SoftPWMSet(R_TRK_BKW, max(0, min(255, abs(stick_values.stick_2_y))));
                // SoftPWMSet(BKT_BKW, 0);
            } else if (stick_values.stick_2_y < -5) {
                SoftPWMSet(BKT_BKW, 255);
                SoftPWMSet(BKT_FWD, 0);
                //SoftPWMSet(BKT_BKW, max(0, min(255, abs(stick_values.stick_2_y))));
                //SoftPWMSet(R_TRK_FWD, max(0, min(255, abs(stick_values.stick_2_y))));
                //SoftPWMSet(BKT_, 1);
            } else {
                SoftPWMSet(BKT_BKW, 0);
                SoftPWMSet(BKT_FWD, 0);
            }

            left_track = left_track * 3;
            right_track = right_track * 3;

            if (left_track > 0) {
                SoftPWMSet(L_TRK_FWD, max(0, min(255, left_track)));
                SoftPWMSet(L_TRK_BKW, 0);
            } else if (left_track < 0) {
                SoftPWMSet(L_TRK_BKW, max(0, min(255, abs(left_track))));
                SoftPWMSet(L_TRK_FWD, 0);
            } else if (left_track == 0) {
                SoftPWMSet(L_TRK_BKW, 0);
                SoftPWMSet(L_TRK_FWD, 0);
            }

            if (right_track > 0) {
                SoftPWMSet(R_TRK_FWD, max(0, min(255, right_track)));
                SoftPWMSet(R_TRK_BKW, 0);
            } else if (right_track < 0) {
                SoftPWMSet(R_TRK_BKW, max(0, min(255, abs(right_track))));
                SoftPWMSet(R_TRK_FWD, 0);
            } else if (right_track == 0) {
                SoftPWMSet(R_TRK_FWD, 0);
                SoftPWMSet(R_TRK_BKW, 0);
            }


            if (serialEventRun) serialEventRun();

        }
    }
}


//SoftPWMSet(14, 255); // bucket
//SoftPWMSet(15, 10); // bucket
//SoftPWMSet(16, 255); // left track backward
//SoftPWMSet(17, 255); // left track forward
//SoftPWMSet(19, 255); // right track backward
//SoftPWMSet(18, 255); // right track forward

//            SoftPWMSet(17, stick_values.stick_1_y);
//            SoftPWMSet(18, stick_values.stick_1_x);
//            SoftPWMSet(19, stick_values.stick_2_y);
//            SoftPWMSet(20, stick_values.stick_2_x);
//            SoftPWMSet(21, stick_values.stick_3_a);
//            SoftPWMSet(22, stick_values.stick_3_b);
. 5 years ago			`#include <util/delay.h>`
			`#include <avr/io.h>`
			`#include <stdio.h>`
			`#include <stdarg.h>`
			`#include <util/setbaud.h>`
			`#include <Arduino.h>`
			`#include <lib.h>`
sorta working, control needs to be improved 4 years ago			`#include <SoftPWM.h>`
. 5 years ago
			`#include <SPI.h>`
			`#include <nRF24L01.h>`
			`#include <RF24.h>`

			`#define CE_PIN 3`
			`#define CS_PIN 2`
			`#define RED 4`
			`#define GREEN 5`

			`class Radio {`

			`public:`
			`RF24 instance;`

			`};`

			`class Motor {`

			`public:`
			`int power;`
			`};`


			`const uint64_t dozer_pipe = 0xF0F0F0F0D2LL;`
			`const uint64_t remote_pipe = 0xF0F0F0F0E1LL;`

sorta working, control needs to be improved 4 years ago			`#pragma pack(8)`
. 5 years ago			`struct StickValues {`
sorta working, control needs to be improved 4 years ago			`int16_t stick_1_y;`
			`int16_t stick_1_x;`
			`int16_t stick_2_y;`
			`int16_t stick_2_x;`
. 5 years ago			`};`

sorta working, control needs to be improved 4 years ago			`#define R_TRK_FWD 18`
			`#define L_TRK_FWD 17`
			`#define R_TRK_BKW 19`
			`#define L_TRK_BKW 16`
tweak control algo 4 years ago			`#define BKT_FWD 15`
			`#define BKT_BKW 14`
sorta working, control needs to be improved 4 years ago

. 5 years ago			`int main() {`
sorta working, control needs to be improved 4 years ago			`init();`
			`initVariant();`
			`SPI.begin();`
			`Serial.begin(9600);`
. 5 years ago
sorta working, control needs to be improved 4 years ago			`pinMode(GREEN, OUTPUT);`
			`pinMode(RED, OUTPUT);`
. 5 years ago
			`SoftPWMBegin();`

tweak control algo 4 years ago			`SoftPWMSet(R_TRK_FWD, 0); // bucket`
			`SoftPWMSet(L_TRK_FWD, 0); // bucket`
			`SoftPWMSet(R_TRK_BKW, 0); // left track backward`
			`SoftPWMSet(L_TRK_BKW, 0); // left track forward`
			`SoftPWMSet(BKT_FWD , 0); // right track backward`
			`SoftPWMSet(BKT_BKW , 0); // right track forward`

. 5 years ago			`RF24 radio(CE_PIN, CS_PIN);`
			`radio.begin();`
sorta working, control needs to be improved 4 years ago			`radio.setPALevel (RF24_PA_MAX);`
			`radio.setChannel(100);`
			`radio.setDataRate(RF24_1MBPS);`
. 5 years ago			`radio.openWritingPipe(dozer_pipe);`
			`radio.openReadingPipe(1, remote_pipe);`
			`radio.startListening();`

			`bool breaking = false;`
			`int cycles = 0;`
sorta working, control needs to be improved 4 years ago
. 5 years ago			`while (!breaking) {`

			`bool timeout = false;`

			`while (!radio.available()) {`
sorta working, control needs to be improved 4 years ago			`delay(5);`
. 5 years ago			`if (cycles++ > 10) {`
sorta working, control needs to be improved 4 years ago			`// digitalWrite(RED, HIGH);`
			`_delay_ms(1);`
			`// digitalWrite(RED, LOW);`
			`_delay_ms(1);`
. 5 years ago			`timeout = true;`
			`cycles = 0;`
			`break;`
			`}`
			`}`

			`if (timeout) {`
sorta working, control needs to be improved 4 years ago			`SoftPWMSet(14, 0); // bucket`
			`SoftPWMSet(15, 0); // bucket`
			`SoftPWMSet(16, 0); // left track backward`
			`SoftPWMSet(17, 0); // left track forward`
			`SoftPWMSet(19, 0); // right track backward`
			`SoftPWMSet(18, 0); // right track forward`
. 5 years ago			`} else {`
sorta working, control needs to be improved 4 years ago			`cycles = 0;`
			`StickValues stick_values{};`
			`if (radio.read(&stick_values, sizeof(int16_t)*4)) {`
			`// digitalWrite(GREEN, HIGH);`
			`// _delay_ms(5);`
			`// digitalWrite(GREEN, LOW);`
			`// _delay_ms(5);`
			`//Serial.println((int16_t)stick_values.stick_1_y);`
			`}`
. 5 years ago
			`radio.flush_rx();`

tweak control algo 4 years ago			`if (stick_values.stick_2_y > 10) {`
sorta working, control needs to be improved 4 years ago			`digitalWrite(GREEN, HIGH);`
			`digitalWrite(RED, LOW);`
tweak control algo 4 years ago			`} else if (stick_values.stick_2_y < -10) {`
sorta working, control needs to be improved 4 years ago			`digitalWrite(RED, HIGH);`
			`digitalWrite(GREEN, LOW);`
			`} else {`
			`digitalWrite(RED, LOW);`
			`digitalWrite(GREEN, LOW);`
			`}`


			`float mag = sqrt(pow(stick_values.stick_1_x, 2) + pow(stick_values.stick_1_y, 2));`
			`float ang = DEG(atan2((float)stick_values.stick_1_x, (float)stick_values.stick_1_y)) + 180;`

			`int right_track = 0;`
			`int left_track = 0;`

			`if (ang >= 0 && ang < 90 && mag > 1) { // Bottom to Left Quad. RT:F`
			`if (ang < 0 + FULL_SPEED_ZONE)`
			`right_track = (int)(-100.0 * (mag/MAG_SCALER_H));`
			`else if (ang > 90 - FULL_SPEED_ZONE)`
			`right_track = (int)(100.0 * (mag/MAG_SCALER_H));`
			`else // split it (and mult) so it's ranged between -100, 100 then mag it`
			`right_track = ((0 + 45) - ang) * MAGIC_45_2_100 * (mag/MAG_SCALER_H);`

			`left_track = (int)(-100.0 * (mag/MAG_SCALER_H));`
			`}`
			`if (ang >= 90 && ang < 180 && mag > 1) { // Top to Left Quad. RT:F, LT:S`
			`right_track = (int)(100.0 * (mag/MAG_SCALER_H));`

			`if (ang < 90 + FULL_SPEED_ZONE)`
			`left_track = (int)(-100.0 * (mag/MAG_SCALER_H));`
			`else if (ang > 180 - FULL_SPEED_ZONE)`
			`left_track = (int)(100.0 * (mag/MAG_SCALER_H));`
			`else`
			`left_track = ((90 + 45) - ang) * MAGIC_45_2_100 * (mag/MAG_SCALER_H);`
			`}`
			`if (ang >= 180 && ang < 270 && mag > 1) { // Top to Right Quad`
			`if (ang < 180 + FULL_SPEED_ZONE)`
			`right_track = (int)(100.0 * (mag/MAG_SCALER_H));`
			`else if (ang > 270 - FULL_SPEED_ZONE)`
			`right_track = (int)(-100.0 * (mag/MAG_SCALER_H));`
			`else`
			`right_track = ((180 + 45) - ang) * MAGIC_45_2_100 * (mag/MAG_SCALER_H);`
. 5 years ago
sorta working, control needs to be improved 4 years ago			`left_track = (int)(100.0 * (mag/MAG_SCALER_H));`
			`}`
			`if (ang >= 270 && ang <= 360 && mag > 1) { // Bottom to Right Quad`
			`right_track = (int)(100.0 * (mag/MAG_SCALER_H)) * -1;`

			`if (ang < 270 + FULL_SPEED_ZONE)`
			`left_track = (int)(100.0 * (mag/MAG_SCALER_H));`
			`else if (ang > 360 - FULL_SPEED_ZONE)`
			`left_track = (int)(100.0 * (mag/MAG_SCALER_H)) * -1;`
			`else`
			`left_track = ((270 + 45) - ang) * MAGIC_45_2_100 * (mag/MAG_SCALER_H);`
			`}`

tweak control algo 4 years ago			`if (stick_values.stick_2_y > 5) {`
			`SoftPWMSet(BKT_FWD, 255);`
			`SoftPWMSet(BKT_BKW, 0);`
			`//SoftPWMSet(BKT_FWD, max(0, min(255, abs(stick_values.stick_2_y))));`
			`//SoftPWMSet(R_TRK_BKW, max(0, min(255, abs(stick_values.stick_2_y))));`
			`// SoftPWMSet(BKT_BKW, 0);`
			`} else if (stick_values.stick_2_y < -5) {`
			`SoftPWMSet(BKT_BKW, 255);`
			`SoftPWMSet(BKT_FWD, 0);`
			`//SoftPWMSet(BKT_BKW, max(0, min(255, abs(stick_values.stick_2_y))));`
			`//SoftPWMSet(R_TRK_FWD, max(0, min(255, abs(stick_values.stick_2_y))));`
			`//SoftPWMSet(BKT_, 1);`
			`} else {`
			`SoftPWMSet(BKT_BKW, 0);`
			`SoftPWMSet(BKT_FWD, 0);`
			`}`

			`left_track = left_track * 3;`
			`right_track = right_track * 3;`
sorta working, control needs to be improved 4 years ago
			`if (left_track > 0) {`
			`SoftPWMSet(L_TRK_FWD, max(0, min(255, left_track)));`
tweak control algo 4 years ago			`SoftPWMSet(L_TRK_BKW, 0);`
sorta working, control needs to be improved 4 years ago			`} else if (left_track < 0) {`
			`SoftPWMSet(L_TRK_BKW, max(0, min(255, abs(left_track))));`
tweak control algo 4 years ago			`SoftPWMSet(L_TRK_FWD, 0);`
sorta working, control needs to be improved 4 years ago			`} else if (left_track == 0) {`
			`SoftPWMSet(L_TRK_BKW, 0);`
			`SoftPWMSet(L_TRK_FWD, 0);`
			`}`

			`if (right_track > 0) {`
			`SoftPWMSet(R_TRK_FWD, max(0, min(255, right_track)));`
tweak control algo 4 years ago			`SoftPWMSet(R_TRK_BKW, 0);`
sorta working, control needs to be improved 4 years ago			`} else if (right_track < 0) {`
			`SoftPWMSet(R_TRK_BKW, max(0, min(255, abs(right_track))));`
tweak control algo 4 years ago			`SoftPWMSet(R_TRK_FWD, 0);`
sorta working, control needs to be improved 4 years ago			`} else if (right_track == 0) {`
			`SoftPWMSet(R_TRK_FWD, 0);`
			`SoftPWMSet(R_TRK_BKW, 0);`
			`}`


tweak control algo 4 years ago
sorta working, control needs to be improved 4 years ago
			`if (serialEventRun) serialEventRun();`

			`}`
. 5 years ago			`}`
			`}`
sorta working, control needs to be improved 4 years ago









			`//SoftPWMSet(14, 255); // bucket`
			`//SoftPWMSet(15, 10); // bucket`
			`//SoftPWMSet(16, 255); // left track backward`
			`//SoftPWMSet(17, 255); // left track forward`
			`//SoftPWMSet(19, 255); // right track backward`
			`//SoftPWMSet(18, 255); // right track forward`

			`// SoftPWMSet(17, stick_values.stick_1_y);`
			`// SoftPWMSet(18, stick_values.stick_1_x);`
			`// SoftPWMSet(19, stick_values.stick_2_y);`
			`// SoftPWMSet(20, stick_values.stick_2_x);`
			`// SoftPWMSet(21, stick_values.stick_3_a);`
			`// SoftPWMSet(22, stick_values.stick_3_b);`