タコ 駆動側
Dependencies: 2017NHKpin_config FEP R1307 PID ikarashiMDC omni_wheel
Fork of NHK2017_octopus2 by
bot/bot.cpp
- Committer:
- uchitake
- Date:
- 2017-09-26
- Branch:
- develop1
- Revision:
- 17:79fa65706f92
- Parent:
- 16:50651ff960b9
- Child:
- 19:34da005ea4ea
File content as of revision 17:79fa65706f92:
#include "bot.h" Bot::Bot() : PIDC(), pad(XBee2TX, XBee2RX, ADDR), RS485(MDTX, MDRX, 38400), RS485Controller(PWM1), powerSwitch(MDstop), quadOmni(&RS485Controller, &RS485), slider(&RS485Controller, &RS485), armMotor({ ikarashiMDC({&RS485Controller, 1, 1, SM, &RS485}), ikarashiMDC({&RS485Controller, 1, 2, SM, &RS485}), ikarashiMDC({&RS485Controller, 1, 3, SM, &RS485}) }), receiveSuccessed(0), led({DebugLED3, DebugLED4, DebugLED5}), debugSerial(USBTX, USBRX, 115200) { for(int i = 0; i < 3; i++) { armMotor[i].braking = true; } quadOmni.moveXY(0, 0, 0); powerSwitch = true; for(int i = 0; i < 3; i++) { led[i] = true; wait(0.1); led[i] = false; } } void Bot::confirmAll() { receiveSuccessed = pad.receiveState(); if(!pad.getButton2(3) && !pad.getButton2(0)) { powerSwitch = 0; } led[0] = receiveSuccessed; if(!receiveSuccessed) { quadOmni.moveXY(0, 0, 0); slider.slide(0); for(int i = 0; i < 3; i++) { armMotor[i].setSpeed(0); } } } void Bot::controllDrive() { if(receiveSuccessed) { debugSerial.printf("%d\n\r", PIDC::getRawDegree()); led[1] = !led[1]; if(pad.getNorm(1) > 0.5) { PIDC::PID::setSetPoint((pad.getRadian(1) - M_PI / 2) * (180.0 / M_PI)); PIDC::confirm(); } quadOmni.moveXY( pad.getStick(0), -pad.getStick(1), - pad.getStick(2) / 3.0 // PIDC::calculationResult ); } else { quadOmni.moveXY(0, 0, 0); } } void Bot::controllDrive2() { float moment = 0; static float beforestick = pad.getStick(2); if(!pad.getButton2(2)) { PIDC::resetPlaneOffset(); } if((beforestick >= 0.5 && pad.getStick(2) < 0.5) || (beforestick <= -0.5 && pad.getStick(2) > -0.5)) { PIDC::PID::setSetPoint(0.0); PIDC::resetAxisOffset(); } if(pad.getStick(2) > 0.5 || pad.getStick(2) < -0.5) { moment = pad.getStick(2) / 4.0; PIDC::confirm(); } if(fabs(pad.getStick(2)) < 0.5) { PIDC::confirm(); moment = PIDC::calculationResult; } if(receiveSuccessed) { led[1] = !led[1]; quadOmni.moveCircular( pad.getNorm(0) / 2.0, pad.getRadian(0) - PIDC::planeCurrentDegree / 10.0 * (M_PI / 180.0) + M_PI, moment ); } else { quadOmni.moveXY(0, 0, 0); } beforestick = pad.getStick(2); } void Bot::controllDrive3() { static int mode = 1; if(receiveSuccessed) { debugSerial.printf("%d\n\r", PIDC::getCurrentDegree()); if(!pad.getButton2(4)) { mode = 1; } if(!pad.getButton2(5)) { mode = 2; } if(mode == 1) { PIDC::PID::setSetPoint(0.0); PIDC::confirm(); quadOmni.moveXY( pad.getStick(0), -pad.getStick(1), -PIDC::calculationResult ); } if(mode == 2) { PIDC::PID::setSetPoint(90.0); PIDC::confirm(); quadOmni.moveXY( pad.getStick(0), -pad.getStick(1), -PIDC::calculationResult ); } } else { quadOmni.moveXY(0, 0, 0); } } void Bot::controllMech() { if(receiveSuccessed) { if(!pad.getButton1(6)) { armMotor[SWORD].setSpeed(0.6); } if(pad.getButton1(6)) armMotor[SWORD].setSpeed(0.0); if(!pad.getButton1(3)) slider.slide(1.0); if(!pad.getButton1(4)) slider.slide(-1.0); if(pad.getButton1(3) && pad.getButton1(4)) slider.slide(0.0); if(!pad.getButton2(1)) { armMotor[DESTROY].setSpeed(-1.0); } else { armMotor[DESTROY].setSpeed(0.0); } } else { slider.slide(0); for(int i = 0; i < 3; i++) { armMotor[i].setSpeed(0); } } } void Bot::calibrate() { if(receiveSuccessed && !pad.getButton2(0) && !pad.getButton2(1) ) { PIDC::calibration(HMC6352_ENTER_CALIB); quadOmni.moveXY(0, 0, 0.4); wait(5.0); quadOmni.moveXY(0, 0, 0); PIDC::calibration(HMC6352_EXIT_CALIB); } }