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Dependencies: mbed TrapezoidControl QEI
System/Process/Process.cpp
- Committer:
- yabahiro
- Date:
- 2019-09-26
- Revision:
- 38:391a0c8e4c16
- Parent:
- 37:7cfa39c41245
- Child:
- 39:f89166d7411c
File content as of revision 38:391a0c8e4c16:
#include "mbed.h" #include "Process.h" #include "QEI.h" #include "../../CommonLibraries/PID/PID.h" #include "../../Communication/RS485/ActuatorHub/ActuatorHub.h" #include "../../Communication/RS485/LineHub/LineHub.h" #include "../../Communication/Controller/Controller.h" #include "../../Input/ExternalInt/ExternalInt.h" #include "../../Input/Switch/Switch.h" #include "../../Input/Potentiometer/Potentiometer.h" #include "../../Input/Encoder/Encoder.h" #include "../../LED/LED.h" #include "../../Safty/Safty.h" #include "../Using.h" using namespace SWITCH; using namespace PID_SPACE; using namespace ENCODER; using namespace LINEHUB; static CONTROLLER::ControllerData *controller; ACTUATORHUB::MOTOR::MotorStatus motor[MOUNTING_MOTOR_NUM]; ACTUATORHUB::SOLENOID::SolenoidStatus solenoid; static bool lock; static bool processChangeComp; static int current; static void AllActuatorReset(); #ifdef USE_SUBPROCESS static void (*Process[USE_PROCESS_NUM])(void); #endif #pragma region USER-DEFINED_VARIABLES_AND_PROTOTYPE /*Replace here with the definition code of your variables.*/ Serial pc(USBTX, USBRX); //**************Encoder*************** const int PerRev = 256; QEI ECD_0(ECD_A_0,ECD_B_0,NC,PerRev,QEI::X4_ENCODING); QEI ECD_1(ECD_A_1,ECD_B_1,NC,PerRev,QEI::X4_ENCODING); QEI ECD_2(ECD_A_2,ECD_B_2,NC,PerRev,QEI::X4_ENCODING); QEI ECD_3(ECD_A_3,ECD_B_3,NC,PerRev,QEI::X4_ENCODING); //**************Encoder*************** //**************Buzzer**************** //DigitalOut buzzer(BUZZER_PIN); void BuzzerTimer_func(); Ticker BuzzerTimer; bool EMGflag = false; //PWMOut buzzer(BUZZER_PIN); //**************Buzzer**************** //************TapeLed***************** void TapeLedEms_func(); TapeLedData tapeLED; TapeLedData sendLedData; TapeLED_Mode ledMode = Normal; Ticker tapeLedTimer; //************TapaLed***************** float tireProRPM[4]; float tireTarRPM[4]; float tirepwm[4]; const int omni[15][15] = { { 0, 5, 21, 47, 83, 130, 187, 255, 255, 255, 255, 255, 255, 255, 255 }, { -5, 0, 5, 21, 47, 83, 130, 187, 193, 208, 234, 255, 255, 255, 255 }, { -21, -5, 0, 5, 21, 47, 83, 130, 135, 151, 177, 213, 255, 255, 255 }, { -47, -21, 5, 0, 5, 21, 47, 83, 88, 104, 130, 167, 213, 255, 255 }, { -83, -47, -21, 5, 0, 5, 21, 47, 52, 68, 94, 130, 177, 234, 255 }, { -130, -83, -47, -21, 5, 0, 5, 21, 26, 42, 68, 104, 151, 208, 255 }, { -187, -130, -83, -47, -21, -5, 0, 5, 10, 26, 52, 88, 135, 193, 255 }, { -255, -187, -130, -83, -47, -21, -5, 0, 5, 21, 47, 83, 130, 187, 255 }, { -255, -193, -135, -88, -52, -26, -10, -5, 0, 5, 21, 47, 83, 130, 187 }, { -255, -208, -151, -104, -68, -42, -26, -21, -5, 0, 5, 21, 47, 83, 130 }, { -255, -234, -177, -130, -94, -68, -52, -47, -21, -7, 0, 7, 21, 47, 83 }, { -255, -255, -213, -167, -130, -104, -88, -83, -47, -21, -5, 0, 5, 21, 47 }, { -255, -255, -255, -213, -177, -151, -135, -130, -83, -47, -21, -5, 0, 5, 21 }, { -255, -255, -255, -255, -234, -208, -193, -187, -130, -83, -47, -21, -5, 0, 5 }, { -255, -255, -255, -255, -255, -255, -255, -255, -187, -130, -83, -47, -21, -5, 0 } }; const int curve[15] = { -152, -98, -54, -18, 0, 0, 0, 0, 0, 0, 0, 18, 54, 98, 152 }; //{-200,-146,-102,-66,-36,-16,0,0,0,16,36,66,102,146,200} uint8_t SetStatus(int); uint8_t SetStatus(int pwmVal) { if (pwmVal < 0) return BACK; else if (pwmVal > 0) return FOR; else if (pwmVal == 0) return BRAKE; else return BRAKE; } uint8_t Setpwm(int); uint8_t Setpwm(int pwmVal) { if (pwmVal == 0 || pwmVal > 255 || pwmVal < -255) return 255; else return abs(pwmVal); } void LedMode(int led) { switch(led) { case 1: POTENTIOMETER::dio[0]= 1; POTENTIOMETER::dio[1]= 0; POTENTIOMETER::dio[2]= 0; POTENTIOMETER::dio[3]= 0; break; case 2: POTENTIOMETER::dio[0]= 0; POTENTIOMETER::dio[1]= 1; POTENTIOMETER::dio[2]= 0; POTENTIOMETER::dio[3]= 0; break; case 3: POTENTIOMETER::dio[0]= 1; POTENTIOMETER::dio[1]= 1; POTENTIOMETER::dio[2]= 0; POTENTIOMETER::dio[3]= 0; break; case 4: POTENTIOMETER::dio[0]= 0; POTENTIOMETER::dio[1]= 0; POTENTIOMETER::dio[2]= 1; POTENTIOMETER::dio[3]= 0; break; } /* if(led/8>=1) { POTENTIOMETER::dio[3]= 1; led=led%8; } else { POTENTIOMETER::dio[3]= 0; } if(led/4>=1) { POTENTIOMETER::dio[2]= 1; led=led%4; } else { POTENTIOMETER::dio[2]= 0; } if(led/2>=1) { POTENTIOMETER::dio[1]= 1; led=led%2; } else { POTENTIOMETER::dio[1]= 0; } if(led/1>=1) { POTENTIOMETER::dio[0]= 1; led=0; } else { POTENTIOMETER::dio[0]= 0; } */ } int Twsh; bool UP_flag = false; bool SW_flag = false; bool Air_flag = false; bool zyouge; bool dz1=true; bool dz1i=false; bool dz2=true; bool dz2i=false; bool dz3=true; bool dz3i=false; bool dz4=true; bool dz4i=false; bool zone; bool through=false; bool counts=false; bool mtc=false; bool mtc2 = false; int mode =1; int cross=0;//十字数える用 int cros=0; int count=100000;//wait代替え ///*********PWM調整用*********/// int fast =40; int normal = 30; int slow = 20; #pragma endregion USER-DEFINED_VARIABLES_AND_PROTOTYPE #ifdef USE_SUBPROCESS #if USE_PROCESS_NUM>0 static void Process0(void); #endif #if USE_PROCESS_NUM>1 static void Process1(void); #endif #if USE_PROCESS_NUM>2 static void Process2(void); #endif #if USE_PROCESS_NUM>3 static void Process3(void); #endif #if USE_PROCESS_NUM>4 static void Process4(void); #endif #if USE_PROCESS_NUM>5 static void Process5(void); #endif #if USE_PROCESS_NUM>6 static void Process6(void); #endif #if USE_PROCESS_NUM>7 static void Process7(void); #endif #if USE_PROCESS_NUM>8 static void Process8(void); #endif #if USE_PROCESS_NUM>9 static void Process9(void); #endif #endif void SystemProcessInitialize() { #pragma region USER-DEFINED_VARIABLE_INIT /*Replace here with the initialization code of your variables.*/ #pragma endregion USER-DEFINED_VARIABLE_INIT lock = true; processChangeComp = true; current = DEFAULT_PROCESS; #ifdef USE_SUBPROCESS #if USE_PROCESS_NUM>0 Process[0] = Process0; #endif #if USE_PROCESS_NUM>1 Process[1] = Process1; #endif #if USE_PROCESS_NUM>2 Process[2] = Process2; #endif #if USE_PROCESS_NUM>3 Process[3] = Process3; #endif #if USE_PROCESS_NUM>4 Process[4] = Process4; #endif #if USE_PROCESS_NUM>5 Process[5] = Process5; #endif #if USE_PROCESS_NUM>6 Process[6] = Process6; #endif #if USE_PROCESS_NUM>7 Process[7] = Process7; #endif #if USE_PROCESS_NUM>8 Process[8] = Process8; #endif #if USE_PROCESS_NUM>9 Process[9] = Process9; #endif #endif } static void SystemProcessUpdate() { #ifdef USE_SUBPROCESS if(controller->Button.HOME) lock = false; if(controller->Button.START && processChangeComp) { current++; if (USE_PROCESS_NUM < current) current = USE_PROCESS_NUM; processChangeComp = false; } else if(controller->Button.SELECT && processChangeComp) { current--; if (current < 0) current = 0; processChangeComp = false; } else if(!controller->Button.SELECT && !controller->Button.START) processChangeComp = true; #endif #ifdef USE_MOTOR ACTUATORHUB::MOTOR::Motor::Update(motor); #endif #ifdef USE_SOLENOID ACTUATORHUB::SOLENOID::Solenoid::Update(solenoid); #endif #ifdef USE_RS485 ACTUATORHUB::ActuatorHub::Update(); #endif } int g[8]; void SystemProcess() { SystemProcessInitialize(); while(1) { for(int i = 0; i < 8; i++) { g[i] = LineHub::GetPara(i); } //printf("0:%d 1:%d 2:%d 3:%d 4:%d 5:%d 6:%d 9:%d\n\r",g[0],g[1],g[2],g[3],g[4],g[5],g[6],g[7]); #ifdef USE_MU controller = CONTROLLER::Controller::GetData(); #endif #ifdef USE_ERRORCHECK if(SAFTY::ErrorCheck::Check() & SAFTY::Error::ControllerLost) { CONTROLLER::Controller::DataReset(); AllActuatorReset(); lock = true; } else #endif { #ifdef USE_SUBPROCESS if(!lock) { Process[current](); } else #endif { //ロック時の処理 } } /* //Emergency! if(!EMG_0 && !EMG_1 && !EMGflag) { buzzer = 0; BuzzerTimer.attach(BuzzerTimer_func, 1); EMGflag = true; LED_DEBUG0 = 1; } if(EMG_0 && EMG_1 && EMGflag) { buzzer = 1; BuzzerTimer.detach(); EMGflag = false; } */ SystemProcessUpdate(); } } #pragma region PROCESS #ifdef USE_SUBPROCESS #if USE_PROCESS_NUM>0 static void Process0() { mode=1; LedMode(1); if(ThSW) { Twsh=1; } else { Twsh=2; } if(StertSW) { if(ZoneSW) { mode=1; current = 2; } else { mode=1; current = 4; } } if(DWSW) { zyouge=true; } if(AIRSW) { if(SW_flag==false) { if(Air_flag==false) { solenoid.solenoid3 = SOLENOID_ON; Air_flag=true; SW_flag=true; } else { solenoid.solenoid3 = SOLENOID_OFF; Air_flag=false; SW_flag=true; } } } else { SW_flag=false; } if(zyouge) { if(Twsh==1) { motor[MOTOR_0].pwm = 220; motor[MOTOR_0].dir = FOR; if(UPLS) { motor[MOTOR_0].pwm = 100; motor[MOTOR_0].dir = BRAKE; zyouge=false; } } if(Twsh==2) { motor[MOTOR_0].pwm = 230; motor[MOTOR_0].dir = FOR; if(UPLS2) { motor[MOTOR_0].pwm = 100; motor[MOTOR_0].dir = BRAKE; zyouge=false; } } } else { motor[MOTOR_0].pwm = 100; motor[MOTOR_0].dir = BRAKE; } } #endif #if USE_PROCESS_NUM>1 static void Process1() { mtc=false; mtc2 = false; LedMode(2); mode=1; cross=0; Twsh=1; motor[TIRE_FR].dir = SetStatus(-omni[controller->AnalogL.Y][14-controller->AnalogL.X] + curve[controller->AnalogR.X]); motor[TIRE_FL].dir = SetStatus(omni[controller->AnalogL.Y][controller->AnalogL.X] + curve[controller->AnalogR.X]); motor[TIRE_BR].dir = SetStatus(-omni[14-controller->AnalogL.X][14-controller->AnalogL.Y] + curve[controller->AnalogR.X]); motor[TIRE_BL].dir = SetStatus(omni[controller->AnalogL.X][14-controller->AnalogL.Y] + curve[controller->AnalogR.X]); motor[TIRE_FR].pwm = Setpwm(omni[controller->AnalogL.Y][14-controller->AnalogL.X]+ curve[controller->AnalogR.X])*0.2; motor[TIRE_FL].pwm = Setpwm(omni[controller->AnalogL.Y][controller->AnalogL.X]+ curve[controller->AnalogR.X])*0.2; motor[TIRE_BR].pwm = Setpwm(omni[14-controller->AnalogL.X][14-controller->AnalogL.Y]+ curve[controller->AnalogR.X])*0.2; motor[TIRE_BL].pwm = Setpwm(omni[controller->AnalogL.X][14-controller->AnalogL.Y]+ curve[controller->AnalogR.X])*0.2; if(controller->Button.UP||controller->Button.DOWN) { if(controller->Button.UP) { motor[MOTOR_0].pwm =200; motor[MOTOR_0].dir = FOR; if(UPLS) { motor[MOTOR_0].pwm = 0; motor[MOTOR_0].dir = BRAKE; } } if(controller->Button.DOWN) { motor[MOTOR_0].pwm = 50; motor[MOTOR_0].dir = BACK; } } else { motor[MOTOR_0].pwm = 0; motor[MOTOR_0].dir = BRAKE; } if(controller->Button.Y) { if(dz2==true) { if(dz2i==false) { solenoid.solenoid2 = SOLENOID_ON; dz2i=true; } else { solenoid.solenoid2 = SOLENOID_OFF; dz2i=false; } dz2=false; } } else { dz2=true; } if(controller->Button.A) { if(dz3==true) { if(dz3i==false) { dz3i=true; } else { solenoid.solenoid3 = SOLENOID_OFF; dz3i=false; } dz3=false; } } else { dz3=true; } if(controller->Button.B) { if(dz4==true) { if(dz4i==false) { solenoid.solenoid4 = SOLENOID_ON; dz4i=true; } else { solenoid.solenoid4 = SOLENOID_OFF; dz4i=false; } dz4=false; } } else { dz4=true; } /* if(controller->Button.RIGHT){ motor[MOTOR_1].dir = FOR; motor[MOTOR_1].pwm = 60; if (ARM_1){ motor[MOTOR_1].dir = BRAKE; } } else if(controller->Button.LEFT){ motor[MOTOR_1].dir = BACK; motor[MOTOR_1].pwm = 60; if (ARM_0){ motor[MOTOR_1].dir = BRAKE; } } */ } #endif #if USE_PROCESS_NUM>2 static void Process2() { LedMode(3); // printf("1:%d 2:%d 3:%d 4:%d 5:%d 6:%d 7:%d 8:%d\n\r",g[0],g[1],g[2],g[3],g[4],g[5],g[6],g[7]); count++; if(mode==1) {//スタートゾーンから白線検知 motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = normal; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = normal; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = FOR; if(g[2]==0) { count=100000; cross=0; mode=3; } } else if(mode==3) { //横ライントレースから縦ライントレースへ motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = normal; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = normal; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; if(g[0]==0) { mode=10; count=100000; } } else if(mode==10) { //縦ライントレース if(counts==false&&g[2]==0) { cros++; counts=true; } if(counts==true&&g[2]==99) { counts=false; } if(cros==Twsh) { mode=11; count=0; cros=0; }//ゆっくりモードに入れなかった時の保険 switch(g[0]) { case 98: motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = normal; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = normal; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = FOR; mtc=true; if(count>80000) { cross++; count=0; } if(cross==Twsh) { mode=11; count=0; cross=0; } break; case 0: motor[TIRE_FR].pwm = fast; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = fast; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = fast; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = fast; motor[TIRE_BL].dir = FOR; mtc=true; break; case 255: motor[TIRE_FR].pwm = fast; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = slow; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = slow; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = fast; motor[TIRE_BL].dir = FOR; mtc=true; break; case 253: motor[TIRE_FR].pwm = slow; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = slow; motor[TIRE_BL].dir = FOR; mtc=true; break; case 254: motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = FOR; mtc=true; break; case 1: motor[TIRE_FR].pwm = slow; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = fast; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = fast; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = slow; motor[TIRE_BL].dir = FOR; mtc=true; break; case 3: motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = slow; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = slow; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; mtc=true; break; case 2: motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = normal; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = normal; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; mtc=true; break; } if(g[0]!=98&&mtc==true) { switch(g[1]) { case 0: mtc=false; break; case 255: motor[TIRE_BR].pwm += 5; mtc=false; break; case 253: motor[TIRE_BR].pwm += 10; mtc=false; break; case 254: motor[TIRE_BR].pwm += 20; motor[TIRE_BL].pwm = 0; mtc=false; break; case 1: motor[TIRE_BL].pwm += 5; mtc=false; break; case 3: motor[TIRE_BL].pwm += 10; mtc=false; break; case 2: motor[TIRE_BL].pwm += 20; motor[TIRE_BR].pwm = 0; mtc=false; break; } } } else if(mode==11) { motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = normal; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = normal; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; if(g[2]==0) { count=0; cross=0; mode=20; } } else if(mode==20) { if(Twsh==2) { solenoid.solenoid2 = SOLENOID_ON; } if(counts==false&&g[0]==0) { cros++; counts=true; } if(counts==true&&g[0]==99) { counts=false; } if(cros==2) { // mode=21; // count=0; // cros=0; }//ゆっくりモードに入れなかった時の保険 switch(g[2]) { case 98: motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = normal; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = normal; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = BACK; if(count>80000) { cross++; count=0; } mtc2=true; if(cross==2) { mode=21; count=0; cross=0; } break; case 0: motor[TIRE_FR].pwm = fast; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = fast; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = fast; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = fast; motor[TIRE_BL].dir = BACK; mtc2=true; break; case 255: motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = fast; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = fast; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = BACK; mtc2=true; break; case 253: motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = slow; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = slow; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; mtc2=true; break; case 254: motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = normal; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = normal; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; mtc2=true; break; case 1: motor[TIRE_FR].pwm = fast; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = slow; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = slow; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = fast; motor[TIRE_BL].dir = BACK; mtc2=true; break; case 3: motor[TIRE_FR].pwm = slow; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = slow; motor[TIRE_BL].dir = BACK; mtc2=true; break; case 2: motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = BACK; mtc2=true; break; } if(g[2]!=98&&mtc2==true) { switch(g[3]) { case 0: mtc2=false; break; case 255: motor[TIRE_BL].pwm += 5; mtc2=false; break; case 253: motor[TIRE_BL].pwm += 10; mtc2=false; break; case 254: motor[TIRE_BL].pwm += 20; motor[TIRE_FL].pwm = 0; mtc2=false; break; case 1: motor[TIRE_FL].pwm += 5; mtc2=false; break; case 3: motor[TIRE_FL].pwm += 10; mtc2=false; break; case 2: motor[TIRE_FL].pwm += 20; motor[TIRE_BL].pwm = 0; mtc2=false; break; } } } else if(mode==21) { motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = normal; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = normal; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; if(g[0]==0) { mode=30; cros=0; zyouge=true; } } else if(mode==30) { motor[TIRE_FR].pwm = 62; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = 60; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = 60; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = 62; motor[TIRE_BL].dir = FOR; if(g[0]==98) { mode=31; } if(g[3]==0) { mode=32; count=0; cros=0; }//ゆっくりモードに入れなかった時の保険 /* if(g[0]==98) { if(Twsh==2) { solenoid.solenoid2 = SOLENOID_OFF; } mode=31; count=0; } switch(g[0]) { case 98: motor[TIRE_FR].pwm = 30; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = 30; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = 30; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = 30; motor[TIRE_BL].dir = FOR; if(count>100000) { cross++; count=0; } mtc=true; if(cross==1) { if(Twsh==2) { solenoid.solenoid2 = SOLENOID_OFF; } mode=31; count=0; } break; case 0: motor[TIRE_FR].pwm = 80; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = 80; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = 80; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = 80; motor[TIRE_BL].dir = FOR; mtc=true; break; case 255: motor[TIRE_FR].pwm = 80; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = 40; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = 40; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = 80; motor[TIRE_BL].dir = FOR; mtc=true; break; case 253: motor[TIRE_FR].pwm = 80; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = 40; motor[TIRE_BL].dir = FOR; mtc=true; break; case 254: motor[TIRE_FR].pwm = 50; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = 50; motor[TIRE_BL].dir = FOR; mtc=true; break; case 1: motor[TIRE_FR].pwm = 40; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = 80; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = 80; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = 40; motor[TIRE_BL].dir = FOR; mtc=true; break; case 3: motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = 40; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = 40; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; mtc=true; break; case 2: motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = 50; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = 50; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; mtc=true; break; } if(g[0]!=98&&mtc==true) { switch(g[1]) { case 0: mtc=false; break; case 255: motor[TIRE_BR].pwm += 5; mtc=false; break; case 253: motor[TIRE_BR].pwm += 10; mtc=false; break; case 254: motor[TIRE_BR].pwm += 20; motor[TIRE_BL].pwm = 0; mtc=false; break; case 1: motor[TIRE_BL].pwm += 5; mtc=false; break; case 3: motor[TIRE_BL].pwm += 10; mtc=false; break; case 2: motor[TIRE_BL].pwm += 20; motor[TIRE_BR].pwm = 0; mtc=false; break; } } } else if(mode==31) { motor[TIRE_FR].pwm = 15; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = 10; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = 10; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 15; motor[TIRE_BL].dir = FOR; if(g[3]==0) { count=0; mode=40; } */ } else if(mode==31) { motor[TIRE_FR].pwm = 15; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = 15; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = 15; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = 15; motor[TIRE_BL].dir = FOR; if(g[3]==0) { count=0; mode=32; } } else if(mode==32) { motor[TIRE_FR].pwm = 30; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 30; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = 30; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 30; motor[TIRE_BL].dir = BACK; if(g[3]==0) { count=0; mode=40; } } else if(mode==40) { if(LIB) { mode=42; } if(counts==false&&g[0]==0) { cros++; counts=true; } if(counts==true&&g[0]==99) { counts=false; } if(cros==1) { // mode=41; //count=0; //cros=0; }//ゆっくりモードに入れなかった時の保険 switch(g[3]) { case 98: motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = normal; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = normal; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = FOR; if(count>20000) { cross++; count=0; } mtc2=true; if(cross==2) { mode=41; count=0; cross=0; } break; case 0: motor[TIRE_FR].pwm = fast; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = fast; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = fast; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = fast; motor[TIRE_BL].dir = FOR; mtc2=true; break; case 255: motor[TIRE_FR].pwm = slow; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = fast; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = fast; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = slow; motor[TIRE_BL].dir = FOR; mtc2=true; break; case 253: motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = slow; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = slow; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; mtc2=true; break; case 254: motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = normal; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = normal; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; mtc2=true; break; case 1: motor[TIRE_FR].pwm = fast; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = slow; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = slow; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = fast; motor[TIRE_BL].dir = FOR; mtc2=true; break; case 3: motor[TIRE_FR].pwm = slow; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = slow; motor[TIRE_BL].dir = FOR; mtc2=true; break; case 2: motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = FOR; mtc2=true; break; } if(g[2]!=98&&mtc2==true) { switch(g[2]) { case 0: mtc2=false; break; case 255: motor[TIRE_FL].pwm += 5; mtc2=false; break; case 253: motor[TIRE_FL].pwm += 10; mtc2=false; break; case 254: motor[TIRE_FL].pwm += 20; motor[TIRE_BL].pwm = 0; mtc2=false; break; case 1: motor[TIRE_BL].pwm += 5; mtc2=false; break; case 3: motor[TIRE_BL].pwm += 10; mtc2=false; break; case 2: motor[TIRE_BL].pwm += 20; motor[TIRE_FL].pwm = 0; mtc2=false; break; } } } else if(mode==41) { motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = 30; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = 30; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; if(g[1]==0) { count=0; mode=70; } } else if(mode==42) { motor[TIRE_FR].pwm = 20; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = 20; motor[TIRE_BL].dir = BACK; if(g[1]==0) { count=0; mode=70; } } else if(mode==70) { switch(g[1]) { case 99: if(count>=100000) { mode=100; } break; case 98: motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = normal; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = normal; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = BACK; break; case 0: motor[TIRE_FR].pwm = 80; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 80; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = 80; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 80; motor[TIRE_BL].dir = BACK; mtc=true; break; case 255: motor[TIRE_FR].pwm = fast; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = slow; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = slow; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = fast; motor[TIRE_BL].dir = BACK; mtc=true; break; case 253: motor[TIRE_FR].pwm = slow; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = slow; motor[TIRE_BL].dir = BACK; mtc=true; break; case 254: motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = BACK; mtc=true; break; case 1: motor[TIRE_FR].pwm = slow; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = fast; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = fast; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = slow; motor[TIRE_BL].dir = BACK; mtc=true; break; case 3: motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = slow; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = slow; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; mtc=true; break; case 2: motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = normal; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = normal; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; mtc=true; break; } if(g[1]!=98&&mtc==true) { switch(g[0]) { case 0: mtc=false; break; case 255: motor[TIRE_FL].pwm += 5; mtc=false; break; case 253: motor[TIRE_FL].pwm += 10; mtc=false; break; case 254: motor[TIRE_FL].pwm += 20; motor[TIRE_FR].pwm = 0; mtc=false; break; case 1: motor[TIRE_FR].pwm += 5; mtc=false; break; case 3: motor[TIRE_FR].pwm += 10; mtc=false; break; case 2: motor[TIRE_FR].pwm += 20; motor[TIRE_FL].pwm = 0; mtc=false; break; } } } else if(mode==100) { motor[TIRE_FR].pwm = 20; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 20; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = 23; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 20; motor[TIRE_BL].dir = BACK; } else { motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = BRAKE; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = BRAKE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = BRAKE; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = BRAKE; } } #endif #if USE_PROCESS_NUM>3 static void Process3() { } #endif #if USE_PROCESS_NUM>4 static void Process4() { LedMode(4); count++; if(mode==1) {//スタートゾーンから白線検知 motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = normal; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = normal; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = BACK; if(g[2]==0) { count=100000; cross=0; mode=3; } } else if(mode==3) { //横ライントレースから縦ライントレースへ motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = BACK; if(g[0]==0) { mode=10; count=100000; } } else if(mode==10) { //縦ライントレース if(counts==false&&g[2]==0) { cros++; counts=true; } if(counts==true&&g[2]==99) { counts=false; } if(cros==Twsh) { mode=11; count=0; cros=0; }//ゆっくりモードに入れなかった時の保険 switch(g[1]) { case 98: motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = normal; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = normal; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = BACK; mtc=true; if(count>80000) { cross++; count=0; } if(cross==Twsh) { mode=11; count=0; cross=0; } break; case 0: motor[TIRE_FR].pwm = fast; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = fast; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = fast; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = fast; motor[TIRE_BL].dir = BACK; mtc=true; break; case 255: motor[TIRE_FR].pwm = fast; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = slow; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = slow; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = fast; motor[TIRE_BL].dir = BACK; mtc=true; break; case 253: motor[TIRE_FR].pwm = slow; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = slow; motor[TIRE_BL].dir = BACK; mtc=true; break; case 254: motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = BACK; mtc=true; break; case 1: motor[TIRE_FR].pwm = slow; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = fast; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = fast; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = slow; motor[TIRE_BL].dir = BACK; mtc=true; break; case 3: motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = slow; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = slow; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; mtc=true; break; case 2: motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = normal; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = normal; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; mtc=true; break; } if(g[0]!=98&&mtc==true) { switch(g[1]) { case 0: mtc=false; break; case 255: motor[TIRE_FL].pwm += 5; mtc=false; break; case 253: motor[TIRE_FL].pwm += 10; mtc=false; break; case 254: motor[TIRE_FL].pwm += 20; motor[TIRE_FR].pwm = 0; mtc=false; break; case 1: motor[TIRE_FR].pwm += 5; mtc=false; break; case 3: motor[TIRE_FR].pwm += 10; mtc=false; break; case 2: motor[TIRE_FR].pwm += 20; motor[TIRE_FL].pwm = 0; mtc=false; break; } } } else if(mode==11) { motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = BACK; if(g[2]==0) { count=0; cross=0; mode=20; } } else if(mode==20) { if(Twsh==2) { solenoid.solenoid2 = SOLENOID_ON; } if(counts==false&&g[1]==0) { cros++; counts=true; } if(counts==true&&g[1]==99) { counts=false; } if(cros==2) { //mode=21; //count=0; //cros=0; }//ゆっくりモードに入れなかった時の保険 switch(g[2]) { case 98: motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = normal; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = normal; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = BACK; if(count>80000) { cross++; count=0; } mtc2=true; if(cross==2) { mode=21; count=0; cross=0; } break; case 0: motor[TIRE_FR].pwm = fast; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = fast; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = fast; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = fast; motor[TIRE_BL].dir = BACK; mtc2=true; break; case 255: motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = fast; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = fast; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = BACK; mtc2=true; break; case 253: motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = slow; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = slow; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; mtc2=true; break; case 254: motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = normal; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = normal; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; mtc2=true; break; case 1: motor[TIRE_FR].pwm = fast; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = slow; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = slow; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = fast; motor[TIRE_BL].dir = BACK; mtc2=true; break; case 3: motor[TIRE_FR].pwm = slow; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = slow; motor[TIRE_BL].dir = BACK; mtc2=true; break; case 2: motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = BACK; mtc2=true; break; } if(g[2]!=98&&mtc2==true) { switch(g[3]) { case 0: mtc2=false; break; case 255: motor[TIRE_BL].pwm += 5; mtc2=false; break; case 253: motor[TIRE_BL].pwm += 10; mtc2=false; break; case 254: motor[TIRE_BL].pwm += 20; motor[TIRE_FL].pwm = 0; mtc2=false; break; case 1: motor[TIRE_FL].pwm += 5; mtc2=false; break; case 3: motor[TIRE_FL].pwm += 10; mtc2=false; break; case 2: motor[TIRE_FL].pwm += 20; motor[TIRE_BL].pwm = 0; mtc2=false; break; } } } else if(mode==21) { motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = BACK; if(g[1]==0) { mode=30; cros=0; zyouge=true; } } else if(mode==30) { motor[TIRE_FR].pwm = 60; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 60; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = 60; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 60; motor[TIRE_BL].dir = BACK; if(g[1]==98) { mode=31; count=0; } if(counts==false&&g[3]==0) { counts=false; mode=31; count=0; cros=0; }//ゆっくりモードに入れなかった時の保険 /* switch(g[1]) { case 98: motor[TIRE_FR].pwm = 30; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 30; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = 30; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 30; motor[TIRE_BL].dir = BACK; if(count>100000) { cross++; count=0; } mtc=true; if(cross==1) { if(Twsh==2) { solenoid.solenoid2 = SOLENOID_OFF; } mode=31; count=0; } break; case 0: motor[TIRE_FR].pwm = 60; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 60; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = 60; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 60; motor[TIRE_BL].dir = BACK; mtc=true; break; case 255: motor[TIRE_FR].pwm = 60; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 20; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = 20; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 60; motor[TIRE_BL].dir = BACK; mtc=true; break; case 253: motor[TIRE_FR].pwm = 20; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 20; motor[TIRE_BL].dir = BACK; mtc=true; break; case 254: motor[TIRE_FR].pwm = 30; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = 30; motor[TIRE_BL].dir = BACK; mtc=true; break; case 1: motor[TIRE_FR].pwm = 20; motor[TIRE_FR].dir = FOR; motor[TIRE_FL].pwm = 60; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = 60; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 20; motor[TIRE_BL].dir = BACK; mtc=true; break; case 3: motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = 20; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = 20; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; mtc=true; break; case 2: motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = 30; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = 30; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; mtc=true; break; } if(g[1]!=98&&mtc==true) { switch(g[0]) { case 0: mtc=false; break; case 255: motor[TIRE_FL].pwm += 5; mtc=false; break; case 253: motor[TIRE_FL].pwm += 10; mtc=false; break; case 254: motor[TIRE_FL].pwm += 20; motor[TIRE_FR].pwm = 0; mtc=false; break; case 1: motor[TIRE_FR].pwm += 5; mtc=false; break; case 3: motor[TIRE_FR].pwm += 10; mtc=false; break; case 2: motor[TIRE_FR].pwm += 20; motor[TIRE_FL].pwm = 0; mtc=false; break; } } */ } else if(mode==31) { motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = 30; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = 30; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; if(g[3]==0) { count=0; mode=40; } } else if(mode==40) { if(LIB) { mode=42; } if(counts==false&&g[0]==0) { cros++; counts=true; } if(counts==true&&g[0]==99) { counts=false; } if(cros==2) { // mode=41; //count=0; //cros=0; }//ゆっくりモードに入れなかった時の保険 switch(g[3]) { case 98: motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = normal; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = normal; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = FOR; if(count>20000) { cross++; count=0; } mtc2=true; if(cross==3) { mode=41; count=0; cross=0; } break; case 0: motor[TIRE_FR].pwm = fast; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = fast; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = fast; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = fast; motor[TIRE_BL].dir = FOR; mtc2=true; break; case 255: motor[TIRE_FR].pwm = slow; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = fast; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = fast; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = slow; motor[TIRE_BL].dir = FOR; mtc2=true; break; case 253: motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = slow; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = slow; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; mtc2=true; break; case 254: motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = normal; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = normal; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; mtc2=true; break; case 1: motor[TIRE_FR].pwm = fast; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = slow; motor[TIRE_FL].dir = BACK; motor[TIRE_BR].pwm = slow; motor[TIRE_BR].dir = FOR; motor[TIRE_BL].pwm = fast; motor[TIRE_BL].dir = FOR; mtc2=true; break; case 3: motor[TIRE_FR].pwm = slow; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = slow; motor[TIRE_BL].dir = FOR; mtc2=true; break; case 2: motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = FOR; mtc2=true; break; } if(g[2]!=98&&mtc2==true) { switch(g[2]) { case 0: mtc2=false; break; case 255: motor[TIRE_FL].pwm += 5; mtc2=false; break; case 253: motor[TIRE_FL].pwm += 10; mtc2=false; break; case 254: motor[TIRE_FL].pwm += 20; motor[TIRE_BL].pwm = 0; mtc2=false; break; case 1: motor[TIRE_BL].pwm += 5; mtc2=false; break; case 3: motor[TIRE_BL].pwm += 10; mtc2=false; break; case 2: motor[TIRE_BL].pwm += 20; motor[TIRE_FL].pwm = 0; mtc2=false; break; } } } else if(mode==41) { motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = FOR; if(g[1]==0) { count=0; mode=70; } } else if(mode==70) switch(g[0]) { case 99: if(count>=100000) { mode=100; } break; case 98: motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = normal; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = normal; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = FOR; break; case 0: motor[TIRE_FR].pwm = fast; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = fast; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = fast; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = fast; motor[TIRE_BL].dir = FOR; mtc=true; break; case 255: motor[TIRE_FR].pwm = fast; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = slow; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = slow; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = fast; motor[TIRE_BL].dir = FOR; mtc=true; break; case 253: motor[TIRE_FR].pwm = slow; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = slow; motor[TIRE_BL].dir = FOR; mtc=true; break; case 254: motor[TIRE_FR].pwm = normal; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = FREE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = FREE; motor[TIRE_BL].pwm = normal; motor[TIRE_BL].dir = FOR; mtc=true; break; case 1: motor[TIRE_FR].pwm = slow; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = fast; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = fast; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = slow; motor[TIRE_BL].dir = FOR; mtc=true; break; case 3: motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = slow; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = slow; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; mtc=true; break; case 2: motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = FREE; motor[TIRE_FL].pwm = normal; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = normal; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = FREE; mtc=true; break; } if(g[1]!=98&&mtc==true) { switch(g[0]) { case 0: mtc=false; break; case 255: motor[TIRE_BR].pwm += 5; mtc=false; break; case 253: motor[TIRE_BR].pwm += 10; mtc=false; break; case 254: motor[TIRE_BR].pwm += 20; motor[TIRE_BL].pwm = 0; mtc=false; break; case 1: motor[TIRE_BL].pwm += 5; mtc=false; break; case 3: motor[TIRE_BL].pwm += 10; mtc=false; break; case 2: motor[TIRE_BL].pwm += 20; motor[TIRE_BR].pwm = 0; mtc=false; break; } } else if(mode==100) { motor[TIRE_FR].pwm = 20; motor[TIRE_FR].dir = BACK; motor[TIRE_FL].pwm = 20; motor[TIRE_FL].dir = FOR; motor[TIRE_BR].pwm = 23; motor[TIRE_BR].dir = BACK; motor[TIRE_BL].pwm = 20; motor[TIRE_BL].dir = FOR; } /* else { motor[TIRE_FR].pwm = 0; motor[TIRE_FR].dir = BRAKE; motor[TIRE_FL].pwm = 0; motor[TIRE_FL].dir = BRAKE; motor[TIRE_BR].pwm = 0; motor[TIRE_BR].dir = BRAKE; motor[TIRE_BL].pwm = 0; motor[TIRE_BL].dir = BRAKE; } */ } #endif #if USE_PROCESS_NUM>5 static void Process5() { } #endif #if USE_PROCESS_NUM>6 static void Process6() { } #endif #if USE_PROCESS_NUM>7 static void Process7() { } #endif #if USE_PROCESS_NUM>8 static void Process8() { } #endif #if USE_PROCESS_NUM>9 static void Process9() { } #endif #endif #pragma endregion PROCESS static void AllActuatorReset() { #ifdef USE_SOLENOID solenoid.all = ALL_SOLENOID_OFF; #endif #ifdef USE_MOTOR for (uint8_t i = 0; i < MOUNTING_MOTOR_NUM; i++) { motor[i].dir = FREE; motor[i].pwm = 0; } #endif } /* void BuzzerTimer_func() { buzzer = !buzzer; //LED_DEBUG0 = !LED_DEBUG0; } */ void TapeLedEms_func() { sendLedData.code = sendLedData.code == (uint32_t)Red ? (uint32_t)Black : (uint32_t)Red; } #pragma region USER-DEFINED-FUNCTIONS #pragma endregion