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Dependencies: VNH5019
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AigamozuControlPackets
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aigamozu
AigamozuControlPackets.cpp
- Committer:
- kityann
- Date:
- 2015-04-27
- Revision:
- 15:ac839aff80bc
- Parent:
- 14:e441331aa4a1
- Child:
- 16:0e815cca2cc7
File content as of revision 15:ac839aff80bc:
#include "AigamozuControlPackets.h"
#include "VNH5019.h"
//////////////////////////////
// Init //
//////////////////////////////
AigamozuControlPackets::AigamozuControlPackets(VNH5019 agzSheild):_agzSheild(agzSheild){
packetData = new uint8_t[50];
packetLength = 0;
//--init base point--//
//basePoint[0].x = 13956.2655;
//basePoint[0].y = 3731.5060;
basePoint[0].x = 100.2655;
basePoint[0].y = 30.5060;
//basePoint[1].x = 13956.2898;
//basePoint[1].y = 3731.5055;
basePoint[1].x = 200.2898;
basePoint[1].y = 30.5055;
//basePoint[2].x = 13956.2915;
//basePoint[2].y = 3731.5245;
basePoint[2].x = 200.2915;
basePoint[2].y = 40.5245;
//basePoint[3].x = 13956.2680;
//basePoint[3].y = 3731.5248;
basePoint[3].x = 100.2680;
basePoint[3].y = 40.5248;
}
//////////////////////////////
// Controller/Base -> Robot //
//////////////////////////////
void AigamozuControlPackets::createManualCommad(uint8_t fromID,uint8_t toID,uint8_t directionL,uint8_t pwmL,uint8_t directionR, uint8_t pwmR)
{
uint8_t tmp[] = {'A','G','S','M','F',fromID,'T',toID,'L',directionL,pwmL,'R',directionR,pwmR,'A','G','E'};
for(int i = 0; i < RECEIVE_STATUS_COMMNAD_LENGTH; ++i) packetData[i] = tmp[i];
packetLength = RECEIVE_STATUS_COMMNAD_LENGTH;
}
void AigamozuControlPackets::createRequestCommand(uint8_t fromID,uint8_t toID)
{
uint8_t tmp[] = {'A','G','S','S','F',fromID,'T',toID,'A','G','E'};
for(int i = 0; i < REQUEST_COMMNAD_LENGTH; ++i) packetData[i] = tmp[i];
packetLength = REQUEST_COMMNAD_LENGTH;
}
void AigamozuControlPackets::createChangeModeCommand(uint8_t fromID,uint8_t toID,uint8_t,MODE mode){
uint8_t tmp[] = {'A','G','S','C','F',fromID,'T',toID,mode,'A','G','E'};
for(int i = 0; i < CHANGE_MODE_COMMAND_LENGTH; ++i) packetData[i] = tmp[i];
packetLength = CHANGE_MODE_COMMAND_LENGTH;
}
//////////////////////////////
// Robot -> Controller/Base //
//////////////////////////////
void AigamozuControlPackets::createReceiveStatusCommand(uint8_t fromID,uint8_t toID,long latitudeH,long latitudeL,long longitudeH,long longitudeL)
{
//useing union's split::: long hoge.a(4byte) == uint8_t hoge.b[4]
TEST_T latH,latL,lonH,lonL;
latH.a = latitudeH;
latL.a = latitudeL;
lonH.a = longitudeH;
lonL.a = longitudeL;
uint8_t tmp[] = {'A','G','S','R','F',fromID,'T',toID,'S',nowStatus,71,80,83,latH.b[0],latH.b[1],latH.b[2],latH.b[3],latL.b[0],latL.b[1],latL.b[2],latL.b[3],lonH.b[0],lonH.b[1],lonH.b[2],lonH.b[3],lonL.b[0],lonL.b[1],lonL.b[2],lonL.b[3],65,71,69};
for(int i = 0; i < RECEIVE_STATUS_COMMNAD_LENGTH; ++i) packetData[i] = tmp[i];
packetLength = RECEIVE_STATUS_COMMNAD_LENGTH;
}
void AigamozuControlPackets::createReceiveStatusCommandwithKalman(uint8_t fromID,uint8_t toID,long latitudeH,long latitudeL,long longitudeH,long longitudeL)
{
//useing union's split::: long hoge.a(4byte) == uint8_t hoge.b[4]
TEST_T latH,latL,lonH,lonL;
latH.a = latitudeH;
latL.a = latitudeL;
lonH.a = longitudeH;
lonL.a = longitudeL;
uint8_t tmp[] = {'A','G','S','K','F',fromID,'T',toID,'S',nowStatus,71,80,83,latH.b[0],latH.b[1],latH.b[2],latH.b[3],latL.b[0],latL.b[1],latL.b[2],latL.b[3],lonH.b[0],lonH.b[1],lonH.b[2],lonH.b[3],lonL.b[0],lonL.b[1],lonL.b[2],lonL.b[3],65,71,69};
for(int i = 0; i < RECEIVE_STATUS_COMMNAD_LENGTH; ++i) packetData[i] = tmp[i];
packetLength = RECEIVE_STATUS_COMMNAD_LENGTH;
}
//////////////////////////////
// Using createPacket //
//////////////////////////////
uint8_t AigamozuControlPackets::checkCommnadType(uint8_t* buf){
return buf[14];
}
uint8_t* AigamozuControlPackets::getPacketData(){
return packetData;
}
int AigamozuControlPackets::getPacketLength(){
return packetLength;
}
void AigamozuControlPackets::changeSpeed(uint8_t* buf){
if(nowMode == MANUAL_MODE){
manualCount =0;
_agzSheild.changeSpeed(buf[20],buf[21],buf[23],buf[24]);
}
}
//////////////////////////////
// each mode interrupt //
//////////////////////////////
void AigamozuControlPackets::manualMode(){
manualCount++;
if(manualCount > 10){
_agzSheild.changeSpeed(0,0,0,0);
manualCount = 0;
}
}
void AigamozuControlPackets::randomAuto(){
randomCount++;
if(randomCount < 10) _agzSheild.changeSpeed(1,128,1,128);
else if(randomCount < 11) _agzSheild.changeSpeed(2,128,2,128);
else randomCount = 0;
}
void AigamozuControlPackets::gpsAuto(){
/*
_agzSheild.changeSpeed(2,128,2,128):for moving robot
*/
Timer Automove_Timer;
bool out_flag = true;
static bool out_count_flag = false;
int i;
/*
printf("Check Start\n");
printf("agzPoint=%f,%f\n",agzPoint.x,agzPoint.y);
printf("bsdrPoint1=%f,%f\n",basePoint[0].x,basePoint[0].y);
printf("bsdrPoint2=%f,%f\n",basePoint[1].x,basePoint[1].y);
printf("bsdrPoint3=%f,%f\n",basePoint[2].x,basePoint[2].y);
printf("bsdrPoint4=%f,%f\n",basePoint[3].x,basePoint[3].y);
*/
printf("normal\n");
printf("-1, %f, %f\n",agzPoint.x,agzPoint.y);
for(i = 0; i < 4; i++){
printf(" %d, %f, %f\n", i, basePoint[i].x,basePoint[i].y);
}
if(AigamozuControlPackets::checkGpsHit(basePoint[0],basePoint[1],basePoint[2],agzPoint)){
printf("InArea\n");
out_flag = false;
out_count_flag = false;
}else if(AigamozuControlPackets::checkGpsHit(basePoint[2],basePoint[3],basePoint[0],agzPoint)){
printf("InArea\n");
out_flag = false;
out_count_flag = false;
}else{//if robot is out
printf("OutArea\n");
out_flag = true;
}
printf("Kalman\n");
printf("-1, %f, %f\n",agzPointKalman.x,agzPointKalman.y);
for(i = 0; i < 4; i++){
printf(" %d, %f, %f\n", i, basePointKalman[i].x,basePointKalman[i].y);
}
if(AigamozuControlPackets::checkGpsHit(basePointKalman[0],basePointKalman[1],basePointKalman[2],agzPointKalman)){
printf("InArea\n");
//out_flag = false;
//out_count_flag = false;
}else if(AigamozuControlPackets::checkGpsHit(basePointKalman[2],basePointKalman[3],basePointKalman[0],agzPointKalman)){
printf("InArea\n");
//out_flag = false;
//out_count_flag = false;
}else{//if robot is out
printf("OutArea\n");
//out_flag = true;
}
//if robot is out:
if(out_flag == true || out_count_flag == false){
Automove_Timer.reset();
out_count_flag = true;
}
if(out_flag){
if(Automove_Timer.read_ms() < 5000){
_agzSheild.changeSpeed(2,64,2,64);//back
}else if(Automove_Timer.read_ms() < 6000){
_agzSheild.changeSpeed(1,64,2,64);//straight
}else if(Automove_Timer.read_ms() >= 6000){
out_count_flag=false;
out_flag=false;
}
}else{
//if robot is inner
_agzSheild.changeSpeed(1,64,1,64);//straight
}
}
//Update Robot Point
void AigamozuControlPackets::reNewRobotPoint(long latitudeH,long latitudeL,long longitudeH,long longitudeL){
agzPoint.x = (double)latitudeH + (double)(latitudeL / 1000000.0);
agzPoint.y = (double)longitudeH +(double)(longitudeL / 1000000.0);
}
//Updata Base Point
void AigamozuControlPackets::reNewBasePoint(int id, long latitudeH,long latitudeL,long longitudeH,long longitudeL){
basePoint[id].x = (double)latitudeH + (double)(latitudeL / 1000000.0);
basePoint[id].y = (double)longitudeH +(double)(longitudeL / 1000000.0);
}
//Update Robot Point
void AigamozuControlPackets::reNewRobotPointKalman(long latitudeH,long latitudeL,long longitudeH,long longitudeL){
agzPointKalman.x = (double)latitudeH + (double)(latitudeL / 1000000.0);
agzPointKalman.y = (double)longitudeH +(double)(longitudeL / 1000000.0);
}
//Updata Base Point
void AigamozuControlPackets::reNewBasePointKalman(int id, long latitudeH,long latitudeL,long longitudeH,long longitudeL){
basePointKalman[id].x = (double)latitudeH + (double)(latitudeL / 1000000.0);
basePointKalman[id].y = (double)longitudeH +(double)(longitudeL / 1000000.0);
}
//Check Hit Point Area
bool AigamozuControlPackets::checkGpsHit( vertex2D A, vertex2D B, vertex2D C, vertex2D P){
vector2D AB = AigamozuControlPackets::sub_vector(B, A);
vector2D BP = AigamozuControlPackets::sub_vector(P, B);
vector2D BC = AigamozuControlPackets::sub_vector(C, B);
vector2D CP = AigamozuControlPackets::sub_vector(P, C);
vector2D CA = AigamozuControlPackets::sub_vector(A, C);
vector2D AP = AigamozuControlPackets::sub_vector(P, A);
double c1 = AB.x * BP.y - AB.y * BP.x;
double c2 = BC.x * CP.y - BC.y * CP.x;
double c3 = CA.x * AP.y - CA.y * AP.x;
if( ( c1 > 0 && c2 > 0 && c3 > 0 ) || ( c1 < 0 && c2 < 0 && c3 < 0 ) ) {
return true;
}
return false;
}
vector2D AigamozuControlPackets::sub_vector( const vector2D& a, const vector2D& b )
{
vector2D ret;
ret.x = a.x - b.x;
ret.y = a.y - b.y;
return ret;
}
//////////////////////////////
// Mode change //
//////////////////////////////
bool AigamozuControlPackets::changeMode(uint8_t *buf){
//reset
_agzSheild.changeSpeed(0,0,0,0);
eachModeInt.detach();
//Select Mode
switch(buf[19]){
case 0:
nowMode = STANDBY_MODE;
break;
case 1:
eachModeInt.attach(this,&AigamozuControlPackets::manualMode,1.0);
nowMode = MANUAL_MODE;
break;
case 2:
//nowMode = AUTO_MODE;
//eachModeInt.attach(this,&AigamozuControlPackets::randomAuto,1.0);
eachModeInt.attach(this,&AigamozuControlPackets::gpsAuto,2.0);
nowMode = AUTO_GPS_MODE;
break;
case 3:
eachModeInt.attach(this,&AigamozuControlPackets::gpsAuto,0.2);
nowMode = AUTO_GPS_MODE;
break;
default:
nowMode = STANDBY_MODE;
break;
}
return false;
}