523c507c35
* integrating test lesson from lego * adding side card annotations
4.8 KiB
4.8 KiB
Gyroboy LabView
let mSum = 0;
let mPos = 0;
let mSpd = 0;
let mD = 0;
let mDP1 = 0;
let mDP2 = 0;
let mDP3 = 0;
let Crdv = 0;
let cLo = 0;
let gAng = 0;
let ok = false;
let pwr = 0;
let Cstr = 0;
let Cdrv = 0;
let gMn = 0;
let gMx = 0;
let gSum = 0;
let gyro = 0;
let gOS = 0;
let gSpd = 0;
let tInt = 0.014;
let lpwr = 0
let rpwr = 0
let tStart = 0
let st = 0
let oldDr = 0
function RST() {
motors.largeA.reset()
motors.largeD.reset()
motors.largeA.setRegulated(false)
motors.largeD.setRegulated(false)
sensors.gyro2.reset()
sensors.gyro2.rate()
control.timer2.reset()
loops.pause(5000)
mSum = 0;
mPos = 0;
mD = 0;
mDP1 = 0;
mDP2 = 0;
mDP3 = 0;
Crdv = 0;
cLo = 0;
gAng = 0;
ok = false;
pwr = 0;
st = 0;
Cstr = 0;
Cdrv = 0;
}
function OS() {
// OSL
do {
gMn = 1000;
gMx = -100;
gSum = 0;
// gChk
for (let i = 0; i < 200; i++) {
gyro = sensors.gyro2.rate()
gSum = gyro;
gMx = Math.max(gMx, gyro)
gMn = Math.min(gMn, gyro)
loops.pause(4);
}
} while (gMx - gMn > 2);
gOS = gSum / 200;
}
function GT() {
if (cLo == 0) {
tInt = 0.014;
control.timer1.reset();
} else {
tInt = control.timer1.seconds() / cLo;
}
cLo++;
}
function GG() {
gyro = sensors.gyro2.rate();
gOS = 0.0005 * gyro + (1 - 0.0005) * gOS
gSpd = gyro - gOS;
gAng = gAng + tInt * gSpd;
}
function GM() {
let temp = mSum
mSum = motors.largeD.angle() + motors.largeA.angle();
mD = mSum - temp;
mPos = mPos + mD;
mSpd = ((mDP1 + mDP2 + mDP3 + mD) / 4) / tInt;
mDP3 = mDP2;
mDP2 = mDP1;
mDP1 = mD;
}
function EQ() {
mPos = mPos - Cdrv * tInt;
pwr = (0.8 * gSpd + 15 * gAng) + (0.08 * mSpd + 0.12 * mPos) - 0.01 * Cdrv
if (pwr > 100) pwr = 100
else if (pwr < -100) pwr = -100
}
function cntrl() {
mPos = mPos - tInt * Cdrv
lpwr = (pwr + Cstr * 0.1)
rpwr = (pwr - Cstr * 0.1)
}
function CHK() {
if (Math.abs(pwr) < 100)
control.timer2.reset();
if (control.timer2.seconds() > 2) {
ok = true;
}
}
// M
loops.forever(function () {
RST();
brick.showImage(images.eyesSleeping)
OS()
gAng = -0.25;
music.playSoundEffect(sounds.movementsSpeedUp)
brick.showImage(images.eyesAwake)
st = 1;
// BALANCE
while (!ok) {
GT();
let t1 = control.timer1.millis()
GG();
GM();
EQ();
cntrl();
motors.largeA.setSpeed(lpwr)
motors.largeD.setSpeed(rpwr)
CHK()
let t2 = control.timer1.millis();
let p = 5 - (t2 - t1);
loops.pause(Math.max(1, p))
}
motors.stopAll()
st = 0;
brick.setStatusLight(StatusLight.RedPulse);
brick.showImage(images.eyesKnockedOut)
music.playSoundEffect(sounds.movementsSpeedDown)
sensors.touch3.pauseUntil(ButtonEvent.Pressed)
brick.setStatusLight(StatusLight.Off);
})
// BHV
loops.forever(function () {
switch (st) {
case 0:
Cdrv = 0;
Cstr = 0;
break;
case 1:
Cdrv = 40;
loops.pause(4000);
Cdrv = 0;
music.playTone(1000, 100);
st = 2;
break;
case 2:
switch (sensors.color1.color()) {
case ColorSensorColor.Red:
music.playTone(2000, 100);
Cdrv = 0;
Cstr = 0;
break;
case ColorSensorColor.Green:
music.playTone(2000, 100);
Cdrv = 150;
Cstr = 0;
break;
case ColorSensorColor.Blue:
music.playTone(2000, 100);
Cstr = 70;
break;
case ColorSensorColor.Yellow:
music.playTone(2000, 100);
Cstr = -70;
break;
case ColorSensorColor.White:
music.playTone(2000, 100);
Cdrv = -75;
break;
}
if (sensors.ultrasonic4.distance() < 25) {
Cstr = 0;
oldDr = Cdrv;
Cdrv = -10;
motors.mediumC.setSpeed(30, 30, MoveUnit.Degrees);
motors.mediumC.setSpeed(-30, 60, MoveUnit.Degrees);
motors.mediumC.setSpeed(30, 30, MoveUnit.Degrees);
if (Math.randomRange(-1, 1) >= 1)
Cstr = 70;
else
Cstr = -70;
loops.pause(4000);
music.playTone(2000, 100)
Cstr = 0;
Cdrv = oldDr;
}
break;
}
loops.pause(80);
})