2019-11-11 22:26:34 +01:00
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#include "drivecontroller.h"
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#include "sensors.h"
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2020-02-18 09:37:36 +01:00
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#include "status_vector.h"
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2019-11-11 22:26:34 +01:00
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DriveController::DriveController(Motor* m1_, Motor* m2_, Motor* m3_, Motor* m4_){
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2019-11-13 16:26:03 +01:00
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m1 = m1_;
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m2 = m2_;
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m3 = m3_;
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m4 = m4_;
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2019-11-11 22:26:34 +01:00
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for(int i = 0; i < 360; i++){
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2019-11-18 14:37:55 +01:00
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sins[i] = (float) sin(torad(i));
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cosins[i] = (float) cos(torad(i));
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2019-11-11 22:26:34 +01:00
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}
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2019-12-05 11:53:01 +01:00
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pDir = 0;
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pSpeed = 0;
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pTilt = 0;
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vx = 0;
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vy = 0;
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speed1 = 0;
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speed2 = 0;
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speed3 = 0;
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speed4 = 0;
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delta = 0;
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2020-02-10 19:48:31 +01:00
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input = 0;
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output = 0;
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setpoint = 0;
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2020-02-19 17:44:31 +01:00
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pid = new PID(&input, &output, &setpoint, KP, KI, KD, 1,DIRECT);
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2020-02-17 19:14:48 +01:00
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pid->SetSampleTime(1.5);
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2020-02-19 17:44:31 +01:00
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pid->setAngleWrap(true);
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pid->SetDerivativeLag(2);
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2020-02-17 19:14:48 +01:00
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pid->SetOutputLimits(-255,255);
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2020-02-10 19:48:31 +01:00
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pid->SetMode(AUTOMATIC);
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2020-01-29 18:56:49 +01:00
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canUnlock = true;
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unlockTime = 0;
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vxp = 0;
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vxn = 0;
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vyp = 0;
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vyn = 0;
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2019-11-11 22:26:34 +01:00
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}
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2020-02-19 17:44:31 +01:00
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void DriveController::prepareDrive(int dir, int speed, int tilt=0){
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2019-11-11 22:26:34 +01:00
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pDir = dir;
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pSpeed = speed;
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pTilt = tilt;
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}
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void DriveController::drivePrepared(){
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drive(pDir, pSpeed, pTilt);
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}
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2019-11-18 14:37:55 +01:00
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float DriveController::torad(float f){
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return (f * PI / 180.0);
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}
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2019-12-11 16:29:18 +01:00
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void DriveController::drive(int dir, int speed, int tilt){
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2020-02-18 09:37:36 +01:00
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2020-02-21 13:37:32 +01:00
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speed = (speed * KSPD + oldSpeed * (1-KSPD))*GLOBAL_SPD_MULT;
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tilt = tilt > 180 ? tilt - 360 : tilt;
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2019-11-11 22:26:34 +01:00
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vx = ((speed * cosins[dir]));
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vy = ((-speed * sins[dir]));
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2020-01-29 18:56:49 +01:00
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if((((vy < 0 && vxn == 1) || (vy > 0 && vxp == 1) || (vx < 0 && vyp == 1) || (vx > 0 && vyn == 1)) && canUnlock) || (millis() > this->unlockTime+UNLOCK_THRESH)) {
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vxn = 0;
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vxp = 0;
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vyp = 0;
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vyn = 0;
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}
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if((vy > 0 && vxn == 1) || (vy < 0 && vxp == 1)) vy = 0;
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if((vx > 0 && vyp == 1) || (vx < 0 && vyn == 1)) vx = 0;
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2019-11-11 22:26:34 +01:00
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speed1 = ((vx * sins[m1->angle] ) + (vy * cosins[m1->angle] ));
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speed2 = ((vx * sins[m2->angle]) + (vy * cosins[m2->angle]));
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speed3 = -(speed1);
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speed4 = -(speed2);
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2020-02-17 19:14:48 +01:00
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// calcola l'errore di posizione rispetto allo 0
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2020-02-21 13:37:32 +01:00
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delta = CURRENT_DATA_READ.IMUAngle;
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2020-02-17 19:14:48 +01:00
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if(delta > 180) delta = delta - 360;
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2020-02-10 19:48:31 +01:00
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input = delta;
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2020-02-21 13:37:32 +01:00
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setpoint = tilt;
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2020-02-17 19:14:48 +01:00
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pid->Compute();
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2019-11-11 22:26:34 +01:00
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2020-02-19 17:44:31 +01:00
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pidfactor = -output;
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2019-11-11 22:26:34 +01:00
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speed1 += pidfactor;
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speed2 += pidfactor;
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speed3 += pidfactor;
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speed4 += pidfactor;
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speed1 = constrain(speed1, -255, 255);
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speed2 = constrain(speed2, -255, 255);
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speed3 = constrain(speed3, -255, 255);
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2019-12-05 11:53:01 +01:00
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speed4 = constrain(speed4, -255, 255);
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2019-11-11 22:26:34 +01:00
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m1->drive((int) speed1);
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m2->drive((int) speed2);
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m3->drive((int) speed3);
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m4->drive((int) speed4);
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2020-02-18 09:37:36 +01:00
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2020-02-21 13:37:32 +01:00
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oldSpeed = speed;
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2020-02-18 09:37:36 +01:00
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CURRENT_DATA_WRITE.dir = dir;
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CURRENT_DATA_WRITE.speed = speed;
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CURRENT_DATA_WRITE.tilt = tilt;
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CURRENT_DATA_WRITE.axisBlock[0] = vxp;
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CURRENT_DATA_WRITE.axisBlock[1] = vxn;
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CURRENT_DATA_WRITE.axisBlock[2] = vyp;
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CURRENT_DATA_WRITE.axisBlock[3] = vyn;
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2019-11-11 22:26:34 +01:00
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}
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