Merge pull request 'ball: switch to using a buffer of 3 bytes' (#1) from ball into master
Reviewed-on: #1pull/2/head^2
commit
0ad49f227f
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@ -7,16 +7,18 @@
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#define MOUTH_DISTANCE 100
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#define MOUTH_DISTANCE 100
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#define MOUTH_MAX_DISTANCE 140
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#define MOUTH_MAX_DISTANCE 140
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class DataSourceBall : public DataSource{
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class DataSourceBall : public DataSource
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{
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public:
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public:
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DataSourceBall(HardwareSerial *ser, int baud);
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DataSourceBall(HardwareSerial *ser, int baud);
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void readSensor() override;
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void postProcess() override;
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void postProcess() override;
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void test() override;
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void test() override;
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bool isInMouth();
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bool isInMouth();
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bool isInMouthMaxDistance();
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bool isInMouthMaxDistance();
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bool isInFront();
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bool isInFront();
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int angle, distance, angleFix;
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int angle = 0, distance = 0, angleFix = 0;
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bool ballSeen;
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bool ballSeen = false;
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};
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};
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@ -1,30 +1,42 @@
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#include "behaviour_control/status_vector.h"
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#include "sensors/data_source_ball.h"
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#include "sensors/data_source_ball.h"
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#include "behaviour_control/status_vector.h"
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#include "vars.h"
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#include "vars.h"
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DataSourceBall :: DataSourceBall(HardwareSerial* ser_, int baud) : DataSource(ser_, baud) {
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DataSourceBall ::DataSourceBall(HardwareSerial *ser_, int baud) : DataSource(ser_, baud)
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ballSeen = false;
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{
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distance = 0;
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angle = 0;
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}
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}
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void DataSourceBall :: postProcess(){
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byte buf[3] = {0, 0, 255};
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if((value & 0x01) == 1){
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void DataSourceBall ::readSensor()
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distance = value;
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{
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ballSeen = distance == 255 ? 0 : 1;
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// while(ser->available() >= 3) DEBUG.print(ser->read());
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}else{
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while (ser->available() >= 3)
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angle = value * 2;
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ser->readBytes(buf, 3);
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}
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void DataSourceBall ::postProcess()
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{
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if ((buf[0] & 0b01000000) == 0b01000000 && (buf[1] & 0b10000000) == 0b10000000 && (buf[2] & 0b11000000) == 0b11000000)
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{
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angle = buf[0] & 0b00111111;
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angle |= (buf[1] & 0b00000111) << 6;
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distance = buf[2] & 0b00011111;
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distance |= (buf[1] & 0b00111000) << 2;
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ballSeen = distance != 255;
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int imuAngle = CURRENT_DATA_READ.IMUAngle > 180 ? CURRENT_DATA_READ.IMUAngle - 360 : CURRENT_DATA_READ.IMUAngle;
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int imuAngle = CURRENT_DATA_READ.IMUAngle > 180 ? CURRENT_DATA_READ.IMUAngle - 360 : CURRENT_DATA_READ.IMUAngle;
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angleFix = (angle + imuAngle + 360) % 360;
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angleFix = (angle + imuAngle + 360) % 360;
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}
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CURRENT_INPUT_WRITE.ballByte = value;
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CURRENT_DATA_WRITE.ballAngle = angle;
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CURRENT_DATA_WRITE.ballAngle = angle;
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CURRENT_DATA_WRITE.ballAngleFix = angleFix;
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CURRENT_DATA_WRITE.ballAngleFix = angleFix;
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CURRENT_DATA_WRITE.ballDistance = distance;
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CURRENT_DATA_WRITE.ballDistance = distance;
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CURRENT_DATA_WRITE.ballSeen = ballSeen;
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CURRENT_DATA_WRITE.ballSeen = ballSeen;
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}
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}
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}
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void DataSourceBall :: test(){
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void DataSourceBall ::test()
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{
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this->update();
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this->update();
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// if(ballSeen){
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// if(ballSeen){
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DEBUG.print(angle);
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DEBUG.print(angle);
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@ -34,19 +46,19 @@ void DataSourceBall :: test(){
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DEBUG.print(distance);
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DEBUG.print(distance);
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DEBUG.print(" | ");
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DEBUG.print(" | ");
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DEBUG.println(ballSeen);
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DEBUG.println(ballSeen);
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// }else{
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// DEBUG.println("Not seeing ball");
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// }
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}
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}
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bool DataSourceBall::isInFront(){
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bool DataSourceBall::isInFront()
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{
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return CURRENT_DATA_READ.ballSeen && (CURRENT_DATA_READ.ballAngle > MOUTH_MIN_ANGLE || CURRENT_DATA_READ.ballAngle < MOUTH_MAX_ANGLE);
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return CURRENT_DATA_READ.ballSeen && (CURRENT_DATA_READ.ballAngle > MOUTH_MIN_ANGLE || CURRENT_DATA_READ.ballAngle < MOUTH_MAX_ANGLE);
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}
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}
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bool DataSourceBall::isInMouth(){
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bool DataSourceBall::isInMouth()
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{
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return isInFront() && CURRENT_DATA_READ.ballDistance <= MOUTH_DISTANCE;
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return isInFront() && CURRENT_DATA_READ.ballDistance <= MOUTH_DISTANCE;
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}
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}
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bool DataSourceBall::isInMouthMaxDistance(){
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bool DataSourceBall::isInMouthMaxDistance()
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{
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return isInFront() && CURRENT_DATA_READ.ballDistance <= MOUTH_MAX_DISTANCE;
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return isInFront() && CURRENT_DATA_READ.ballDistance <= MOUTH_MAX_DISTANCE;
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}
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}
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@ -38,30 +38,26 @@
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#define S12 ((PIND & 64) >> 6)
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#define S12 ((PIND & 64) >> 6)
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#define S11 ((PIND & 128) >> 7)
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#define S11 ((PIND & 128) >> 7)
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#define NCYCLES 250
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#define NCYCLES 255
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#define BROKEN 230
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#define BROKEN 230
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#define TOO_LOW 45
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#define TOO_LOW 45
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int counter[16];
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byte counter[16];
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int distance;
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byte distance;
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int nmax = 0;
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byte nmax = 0;
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int sensor = 0;
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int sensor = 0;
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int oldIndex = 0;
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int oldIndex = 0;
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int oldDistance = 0;
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int oldDistance = 0;
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byte ballInfo = 0;
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float xs[16];
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float xs[16];
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float ys[16];
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float ys[16];
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float angle = 0;
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float angle = 0;
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int dist = 0;
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byte dist = 0;
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boolean sending = false;
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byte sendAngle = 0, sendDistance = 0;
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byte sendByte = 0;
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unsigned long t = 0;
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unsigned long t = 0;
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byte buf[3];
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void setup() {
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void setup() {
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delay(1000);
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delay(1000);
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@ -143,7 +139,7 @@ void readBallInterpolation() {
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}
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}
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angle = atan2(y, x) * 180 / PI;
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angle = atan2(y, x) * 180 / PI;
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angle = ((int)(angle + 360)) % 360;
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angle = ( ((int)(angle) + 360)) % 360;
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//distance is 0 when not seeing ball
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//distance is 0 when not seeing ball
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//dist = hypot(x, y);
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//dist = hypot(x, y);
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@ -158,10 +154,10 @@ void readBallInterpolation() {
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}
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}
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}
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}
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distance = nmax;
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distance = NCYCLES - nmax;
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//turn led on
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//turn led on
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if (distance == 0) {
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if (distance == NCYCLES) {
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digitalWrite(A4, LOW);
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digitalWrite(A4, LOW);
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} else {
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} else {
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digitalWrite(A4, HIGH);
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digitalWrite(A4, HIGH);
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@ -169,15 +165,16 @@ void readBallInterpolation() {
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}
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}
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void sendDataInterpolation() {
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void sendDataInterpolation() {
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if(sending){
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buf[0] = 0b01000000;
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sendAngle = ((byte) (angle / 2)) & 0b11111110;
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buf[1] = 0b10000000;
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Serial.write(sendAngle);
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buf[2] = 0b11000000;
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}else{
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sendDistance = NCYCLES - distance;
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buf[0] |= ((int)angle) & 0b000111111;
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sendDistance = sendDistance |= 0b00000001;
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buf[1] |= (((int)angle) & 0b111000000) >> 6;
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Serial.write(sendDistance);
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buf[1] |= (distance & 0b11100000) >> 2;
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}
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buf[2] |= distance & 0b00011111;
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sending = !sending;
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if(Serial.availableForWrite() >= 3) Serial.write(buf, 3);
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}
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}
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void test() {
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void test() {
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