Sowmiya Sivanandham
seeing i robot - with all the file systems and complete code
Dependencies: mbed SRF05 Servo CMPS03
Serializer/Serializer.cpp
- Committer:
- sowmy87
- Date:
- 2010-12-17
- Revision:
- 1:2bac7b6f3840
- Parent:
- 0:ee786e500a3c
File content as of revision 1:2bac7b6f3840:
/**
* Includes
*/
#include "Serializer.h"
//Serial pcc(USBTX, USBRX);
Serializer::Serializer() {
serial=new Serial(p28,p27);
serial->baud(BAUD);
Initialize();
}
int Serializer::Initialize() {
char c1=0;
DigitalOut led1(LED1);
DigitalOut led2(LED2);
DigitalOut led3(LED3);
DigitalOut led4(LED4);
led1=1;
if (serial->writeable())
serial->printf("fw\r");
wait(.25);
led2=1;
while (serial->readable()) {
c1=serial->getc();
}
if (c1!='>')
for (int i=0;i<5;i++) {
led1=led2=led3=led4=1;
wait(0.1);
led1=led2=led3=led4=0;
wait(0.1);
}
wait(.25);
led3=1;
wait(.25);
led4=1;
// SetVPID(1,0,0,100);
wait(0.25);
led1=0;
wait(.25);
ClearCount();
led2=0;
wait(.25);
led3=0;
wait(.25);
led4=0;
_lPWM=_rPWM=0;
_isBusy=0;
_irqIsBusy=0;
// serial->attach(this, &Serializer::InterruptHandler);
return 0;
}
Serializer::~Serializer() {
delete serial;
}
void Serializer::Stop() {
if (serial->writeable())
serial->printf("stop\r");
leftSpeed=rightSpeed=0;
// pc.printf("Stop\r\n");
}
void Serializer::ClearCountLeft() {
if (serial->writeable())
serial->printf("clrenc 1\r");
}
void Serializer::ClearCountRight() {
if (serial->writeable())
serial->printf("clrenc 2\r");
}
void Serializer::ClearCount() {
if (serial->writeable())
serial->printf("clrenc 1 2\r");
}
void Serializer::SetSpeedLeft(int inPsec) {
if (inPsec>MAX_SPEED)inPsec=MAX_SPEED;
if (inPsec<-MAX_SPEED)inPsec=-MAX_SPEED;
if (serial->writeable())
serial->printf("mogo 1:%i\r", -inPsec);
leftSpeed=inPsec;
}
void Serializer::SetSpeedRight(int inPsec) {
if (inPsec>MAX_SPEED)inPsec=MAX_SPEED;
if (inPsec<-MAX_SPEED)inPsec=-MAX_SPEED;
if (serial->writeable())
serial->printf("mogo 2:%i\r", -inPsec);
rightSpeed=inPsec;
}
void Serializer::SetSpeed(int inPsec) {
if (inPsec>MAX_SPEED)inPsec=MAX_SPEED;
if (inPsec<-MAX_SPEED)inPsec=-MAX_SPEED;
inPsec*=-1;
if (serial->writeable())
serial->printf("mogo 1:%i 2:%i\r", inPsec-50, inPsec);
leftSpeed=rightSpeed=inPsec;
}
void Serializer::SetVPID(int p,int i,int d,int l) {
if (serial->writeable())
serial->printf("vpid %i:%i:%i:%i\r", p,i,d,l);
}
void Serializer::SetDPID(int p,int i,int d,int a) {
if (serial->writeable())
serial->printf("dpid %i:%i:%i:%i\r", p,i,d,a);
}
void Serializer::DiGoLeft(int dist,int inPsec) {
/* if(_isBusy)
return;
_isBusy=1;
*/
if (serial->writeable())
serial->printf("digo 1:%i:%i\r",dist*PULSES_PER_INCH, inPsec);
}
void Serializer::DiGoRight(int dist,int inPsec) {
/* if(_isBusy)
return;
_isBusy=1;
*/
if (serial->writeable())
serial->printf("digo 2:%i:%i\r",dist*PULSES_PER_INCH, inPsec);
}
void Serializer::DiGo(int dist,int inPsec) {
/* if(_isBusy)
return;
_isBusy=1;
*/
if (serial->writeable()) {
serial->printf("digo 1:%i:%i 2:%i:%i\r", \
-dist*PULSES_PER_INCH, \
inPsec, \
-dist*PULSES_PER_INCH, \
inPsec);
}
}
int Serializer::IsBusy() {
if (_isBusy&&serial->writeable()) {
serial->printf("pids\r");
wait(0.01);
}
return _isBusy;
}
/*
char tmp=0;
if (_isBusy) {
if (serial->writeable()) {
serial->printf("pids\r");
}
wait(0.1);
while (serial->readable()) {
tmp=serial->getc();
pcc.putc(tmp);
if (tmp=='1')
_isBusy=1;
else if (tmp=='0')
_isBusy=0;
}
}
pcc.printf("IsBusy = %i\n\r",_isBusy);
return _isBusy;
*/
void Serializer::TurnLeft(int deg) {
}
void Serializer::TurnRight(int deg) {
}
void Serializer::PivetLeft(int deg) {
Stop();
deg=deg*PIVET_ADJUSTMENT;
wait(0.1);
if (serial->writeable())
serial->printf("digo 1:%i:%i 2:%i:%i\r",deg,PIVET_SPEED,-deg,PIVET_SPEED);
}
void Serializer::PivetRight(int deg) {
this->Stop();
deg=deg*PIVET_ADJUSTMENT;
wait(0.1);
if (serial->writeable())
serial->printf("digo 1:%i:%i 2:%i:%i\r",-deg,PIVET_SPEED,deg,PIVET_SPEED);
}
void Serializer::SetLeftPWM(int pwm) {
_lPWM=-pwm;
if (serial->writeable())
serial->printf("pwm 1:%i\r",_lPWM);
}
void Serializer::SetRightPWM(int pwm) {
_rPWM=-pwm;
if (serial->writeable())
serial->printf("pwm 2:%i\r",_rPWM);
}
void Serializer::SetPWM(int pwm){
_rPWM=-pwm;
_lPWM=-pwm;
if (serial->writeable())
serial->printf("pwm 1:%i 2:%i\r",_lPWM, _rPWM);
}
void Serializer::SetPWM(int lPwm, int rPwm){
_rPWM=-rPwm;
_lPWM=-lPwm;
if (serial->writeable())
serial->printf("pwm 1:%i 2:%i\r",_lPWM, _rPWM);
}
int Serializer::GetCountLeft() {
if (serial->writeable()) {
serial->printf("getenc 1\r");
// pcc.printf("Sendreq\t");
}
wait(0.01);
int ret=0;
char c=0;
while (serial->readable()) {
// pcc.printf("Reading");
c=serial->getc();
// pcc.putc(c);
if (c>='0'&&c<='9') {
c-='0';
ret*=10;
ret+=c;
}
}
return ret;
}
int Serializer::GetCountRight() {
if (serial->writeable()) {
serial->printf("getenc 2\r");
// pcc.printf("Sendreq\t");
}
wait(0.01);
int ret=0;
char c=0;
while (serial->readable()) {
// pcc.printf("Reading");
c=serial->getc();
// pcc.putc(c);
if (c>='0'&&c<='9') {
c-='0';
ret*=10;
ret+=c;
}
}
return ret;
}
int Serializer::GetCount() {
return GetCountLeft();
}
float Serializer::GetDistanceLeft() {
return float(GetCountLeft()*PULSE_DISTANCE);
}
float Serializer::GetDistanceRight() {
return float(GetCountRight()*PULSE_DISTANCE);
}
float Serializer::GetDistance() {
return float(GetCountLeft()*PULSE_DISTANCE);
}
//unused and untested
int Serializer::GetReply() {
int returnValue=0;
char c=0;
char readyToReturn=0;
char ack=0;
char nack=0;
wait(0.0001);
while (serial->readable()) {
c=serial->getc();
if (readyToReturn)continue;
if (c=='N'&&nack==0)nack=1;
else nack=0;
if (c=='A'&&ack==0)ack++;
else ack=nack=0;
if (c=='C'&&ack==1)ack++;
else ack=nack=0;
if (c=='K'&&ack==2)ack++;
else ack=nack=0;
if (ack==3)
if (nack==1)
returnValue=1;
else
returnValue=0;
if (c=='>')readyToReturn=1;
}
return returnValue;
}
void Serializer::InterruptHandler() {
char c=0;
char bsy=_isBusy;
while (serial->readable()) {
c=serial->getc();
if (!_isBusy)
continue;
if (c=='1')
bsy=1;
else if (c=='0')
bsy=0;
}
if (_isBusy&&!bsy) _isBusy=0;
}