2015_robocon_bteam
/
2015robot_main
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Fork of
2015robot_main
by 
Naoto Deguchi
main_ps3.cpp
- Committer:
- DeguNaoto
- Date:
- 2015-10-12
- Revision:
- 83:e1638c58e1f1
- Parent:
- 79:7f86e18f40ef
- Child:
- 84:919a335ac81e
File content as of revision 83:e1638c58e1f1:
/**
* This program is written in main micro computer "mbed" for 2015 NHK Robot Contest (Bteam).
*/
//速度コントローラと向きコントローラはそのまま
//大和田にPIC1のシリンダの信号をタイマーで書かせる
//回転機構wait PI/4 追加で待つ
//射出をスキップする機能を追加
//スタートゾーンにマシンを戻した後に暴走しないようにする
//手動時の操作性の改善
//一度手動モードになったらスタートゾーンに戻るまで再び自動モードにならないようにする
//flagfで前進・後退切り替え
//大和田射角
//午後に一定回転制御の実験
/***コース選択***/
#define BLUE
//#define RED
/***コントローラ選択***/
//#define IM920
#define PS3
/***回転機構測定***/
//#define MESURE
#if defined(IM920) && defined(PS3)
#error Caution, You should define either IM920 or PS3
#endif
#if defined(BLUE) && defined(RED)
#error Caution, You should define either BLUE or RED
#endif
#include "machine_ps3.h"
Serial pc(USBTX, USBRX);
#ifdef MESURE
LocalFileSystem local("local");
#endif
Timeout MStop;
void Restart(){
if(step==10) step=11;
}
int main() {
#ifdef IM920
initializeIM920();
#else
initializeSBDBT();
#endif
initializeMotors();
initializeControllers();
initializeSwing();
initializeRS485();
#ifdef BLUE
sita=PI/4.0,targ_sita=PI/4.0;
IndicatorBLUE = 1;
#else
sita=-PI/4.0,targ_sita=-PI/4.0;
IndicatorRED = 1;
#endif
Indicator4=1;
Enable=1;
#ifdef MESURE
FILE *fp_r = fopen("/local/velocity.dat", "w");
double time=0.0;
#endif
wait(0.3);
sendData(7,255);
while(1) {
if(autoflag){
#ifdef IM920
autoIM920(); /*IM920 button*/
#else
autoPS3(); /*PS3 button*/
#endif
#ifdef BLUE
//Blue
/********************************Nomal Mode*********************************/
if((step==0)&&((8650.0>x)&&(x>850.0))) {
targ_sita=0.08;
step=1;
}
if((step==1)&&(x>8600.0)) {
targ_velocity=0.0;
step=2;
}
if((step==2)&&(abs(velocity)<1000.0)) {
step=3;
targ_velocity=speed;
flagf=0;
targ_sita=0.07;
}
if((step==3)&&(x<1950.0)) {
targ_sita=PI/4;
step=4;
sendData(7,255);
}
if((step==4)&&(x<-100.0)) {
targ_velocity=0.0;
step=114;
}
/***Cylinder***/
if((x>2950.0)&&(CStep==1)) { /*nomal*/
if(!skip) sendData(1,1);
CStep=2;
}
if((x>5880.0)&&(CStep==2)) {
if(!skip) sendData(1,2);
CStep=3;
}
if((x>7600.0)&&(CStep==3)) {
if(!skip) sendData(1,3);
CStep=4;
}
if((x<6600.0)&&(CStep==4)) {
if(!skip) sendData(1,5);
CStep=5;
}
if((x<6100.0)&&(CStep==5)) {
if(!skip) sendData(1,4);
CStep=114;
}
/////////////////////////////////////////////////////////////////////////
/******************************Middle Mode******************************/
if((step==5)&&((5700.0>x)&&(x>800.0))) {
targ_sita=0.08;
step=6;
}
if((step==6)&&(x>7000.0)){
targ_velocity=0.0;
step=7;
}
if((step==7)&&(abs(velocity)<1000.0)) {
flagf=0;
targ_velocity=speed;
targ_sita=0.07;
step=8;
}
if((step==8)&&(x<1900.0)) {
targ_sita=PI/4;
step=9;
sendData(7,255);
}
if((step==9)&&(x<-100.0)) {
targ_velocity=0.0;
step=114;
}
if((x>4850.0)&&(CStep==6)){
sendData(1,5);
CStep=7;
}
if((x>5350.0)&&(CStep==7)){
sendData(1,4);
CStep=114;
}
/////////////////////////////////////////////////////////////////////////
/*****************************Opponents Mode****************************/
if((step==15)&&((5700.0>x)&&(x>50.0))) {
targ_sita=0.03;
step=16;
}
if((step==16)&&(x>2800.0)){
targ_velocity=0.0;
step=114;
}
/////////////////////////////////////////////////////////////////////////
#else
//Red
/********************************Nomal Mode*********************************/
if((step==0)&&((8650.0>x)&&(x>800.0))) {
targ_sita=-0.08;
step=1;
}
if((step==1)&&(x>8600.0)) {
targ_velocity=0.0;
step=2;
}
if((step==2)&&(abs(velocity)<1000.0)) {
step=3;
targ_velocity=speed;
flagf=0;
targ_sita=-0.07;
}
if((step==3)&&(x<1950.0)) {
targ_sita=-PI/4;
step=4;
sendData(7,255);
}
if((step==4)&&(x<-100.0)) {
targ_velocity=0.0;
step=114;
}
if((x>2950.0)&&(CStep==1)) {
if(!skip) sendData(1,1);
CStep=2;
}
if((x>5850.0)&&(CStep==2)) {
if(!skip) sendData(1,3);
CStep=3;
}
if((x>7600.0)&&(CStep==3)) {
if(!skip) sendData(1,2);
CStep=6;
}
if((x<6650.0)&&(CStep==4)) {
if(!skip) sendData(1,4);
CStep=5;
}
if((x<6130.0)&&(CStep==5)) {
if(!skip) sendData(1,5);
CStep=114;
}
/////////////////////////////////////////////////////////////////////////
/******************************Middle Mode******************************/
if((step==5)&&((5700.0>x)&&(x>800.0))) {
targ_sita=-0.08;
step=6;
}
if((step==6)&&(x>7000.0)){
targ_velocity=0.0;
step=7;
}
if((step==7)&&(abs(velocity)<1000.0)) {
flagf=0;
targ_velocity=speed;
targ_sita=-0.07;
step=8;
}
if((step==8)&&(x<1900.0)) {
targ_sita=-PI/4;
step=9;
sendData(7,255);
}
if((step==7)&&(x<-100.0)) {
targ_velocity=0.0;
step=8;
autoflag=0;
}
if((x>4850.0)&&(CStep==6)){
sendData(1,4);
CStep=7;
}
if((step==9)&&(x<-100.0)) {
targ_velocity=0.0;
step=114;
}
/////////////////////////////////////////////////////////////////////////
#endif
mesure_state(); /*位置測定*/
move_following(); /*移動制御*/
}
else if(!autoflag) {
resetState();
#ifdef IM920
manualMoveIM920(); /*analogStick*/
manualIM920(); /*IM920 button*/
#else
manualMovePS3(); /*analogStick*/
manualPS3(); /*PS3 button*/
#endif
//Swing
swingFollowing();
#ifdef MESURE
if(down){
IndicatorAuto=0;
fclose(fp_r);
}
fprintf(fp_r, "time:%1.3f, %f[rad/s], pwm:%f\r\n",time,swingRadVelocity,cont);
time+=0.01;
#endif
}
/***update state***/
#ifdef IM920
readIM920();
#endif
mesureSwing();
wait(RATE);
// pc.printf("sita:%f, x:%f, y:%f ,x1:%f, x2:%f ,velocity:%f\r\n",sita,x,y,x1,x2,velocity);
// pc.printf("A2 = %d, X = %d, Y = %d, B = %d, dead = %d\r\n", a2, X, Y, b, deadflag);
// pc.printf("%f %f\r\n",cont,swingRadVelocity);
}
}
