コード例 #1
0
ファイル: MyRobot.cpp プロジェクト: nerdherd/FRC-2011
	void OperatorControl(void)
	{
		AxisCamera &camera = AxisCamera::GetInstance();
		miniBotTime.Start();
		initRobot();
		
		debug("in telop");
		compressor.Start();
		GetWatchdog().SetEnabled(true);
		/*int l1, l2, l3;
		while (IsOperatorControl()) {
			GetWatchdog().Feed();
			//char val = (line1.Get() & 0x01) | (line2.Get() & 0x02) | (line3.Get() & 0x04);
			//if(l1 != line1.Get() || l2 != line2.Get() || l3 != line3.Get()) {
			//	cerr << "change " << (l1 = line1.Get()) << "\t" << (l2 = line2.Get()) << "\t" << (l3 = line3.Get()) << endl;
			//}
			cerr << "Change "<< line1.Get() <<"\t" << line2.Get() << "\t" << line3.Get() << endl;
			Wait(0.2);
		}*/
		char count=0, pneumaticCount=0;
		// was .125 when loop at .025
		lowPass lowSpeed(.04), lowStrafe(.04), lowTurn(.04), lowClaw(.04), lowArm(.04), lowArmLoc(.05);
		
		double ClawLocation=0, ArmLocation=0, OldArmLocation=0;
		
		while (IsOperatorControl() && !IsDisabled())
		{
			GetWatchdog().Feed();
			float speed = -1*stick.GetRawAxis(2);
			float strafe = stick.GetRawAxis(1);
			float turn = stick.GetRawAxis(3);

			if(!stick.GetRawButton(7)) {
				speed /= 2;
				strafe /= 2;
				turn /= 2;
			}
			if(stick.GetRawButton(8)) {
				speed /= 2;
				strafe /= 2;
				turn /= 2;
			}
			if(stick.GetRawButton(2)) {
				speed = 0;
				turn = 0;
			}
			
			Drive(lowSpeed(speed), lowTurn(turn), lowStrafe(strafe));		
			
			
			
#ifndef NDEBUG
			if(stick2.GetRawButton(10)) {
				robotInted = false;
				initRobot();
			}
#endif
			
			
			if(stick2.GetRawButton(7) && (miniBotTime.Get() >= 110 || (stick2.GetRawButton(9) && stick2.GetRawButton(10)))) { // launcher
				// the quick launcher
				MiniBot1a.Set(true);
				MiniBot1b.Set(false);
				
			} 
			if(!stick2.GetRawButton(10) && stick2.GetRawButton(9)) { // deploy in
				MiniBot2a.Set(false);
				MiniBot2b.Set(true);
				//MiniBot2a.Set(false);
				//MiniBot2b.Set(true);
			}
			if(stick2.GetRawButton(5)) { // top deploy out
				MiniBot2a.Set(true);
				MiniBot2b.Set(false);
			}
			
			
			if(stick2.GetRawButton(6)) { // open
				ClawOpen.Set(true);
				ClawClose.Set(false);
			}
			if(stick2.GetRawButton(8)) { // closed
				ClawOpen.Set(false);
				ClawClose.Set(true);
				ClawLocation += 2;
			}
			
			/*156 straight
			 * 56 90 angle
			 * 10 back
			 */
			
			if(stick2.GetRawButton(1)) { // top peg
				ClawLocation = 156;
				ArmLocation = 105;
			}
			if(stick2.GetRawButton(2)) {
				ClawLocation = 111; // the 90angle / middle peg
				ArmLocation = 50;
			}
			if(stick2.GetRawButton(3)) { // off ground
				ClawLocation = 176;
				ArmLocation = 5;
			}
			if(stick2.GetRawButton(4)) {
				ClawLocation = 0; // back
				ArmLocation = 0;
			}
			
			double tmpClaw = .7*lowClaw(stick2.GetRawAxis(4));
			if(tmpClaw < .2 && tmpClaw > -.2) tmpClaw = 0;
			
			double tmpArm = .4*lowArm(-1*stick2.GetRawAxis(2));
			if(tmpArm < .2 && tmpArm > -.2) tmpArm = 0;
			if(tmpArm > .5) tmpArm = .5;
			if(tmpArm < -.5) tmpArm = -.5;
						
			
			ClawLocation += tmpClaw + tmpArm; // the right joy stick y
			
			if(ClawLocation < 10) ClawLocation = 10;
			if(ClawLocation > 230) ClawLocation = 230;
			
			Claw(ClawLocation);
			
			
			ArmLocation += tmpArm;
			if(ArmLocation > 110) ArmLocation = 110;
			if(ArmLocation < -10)  ArmLocation = -10;
			
			Arm(lowArmLoc(ArmLocation));
			OldArmLocation = ArmLocation;
						
#ifndef NDEBUG
			if(count++%20==0){
			cerr << EncClaw.Get() << '\t' << arm1->GetOutputCurrent() << '\t' << arm1_sec->GetOutputCurrent() << '\t' << ArmLocation << '\t' << EncArm.Get() << endl; 
				//	cerr << arm1->GetOutputCurrent() << '\t' << arm1_sec->GetOutputCurrent() << '\t' << arm2->GetOutputCurrent() << '\t'
			//	 	<< EncArm.Get () << '\t' << LimitArm.Get() << '\t' << EncClaw.Get() << '\t' << LimitClaw.Get() << '\t' << ClawLocation << endl;
				//cerr << '\t' << EncArm.Get() <<'\t' << arm1->Get() << endl;
			//	cerr << Dlf->Get() << '\t' << Dlf->GetSpeed() << '\t' << Dlb->GetSpeed() <<'\t' << Drf->GetSpeed() <<'\t' << Drb->GetSpeed() <<endl;//'\t' << line1.Get() << "\t" << line2.Get() << "\t" << line3.Get() << endl;
			//	cerr << '\t' << Dlb->GetSpeed() << '\t';
			}
#endif			

			if(pneumaticCount++==0) {
				ClawOpen.Set(false);
				ClawClose.Set(false);
				MiniBot1a.Set(false);
				MiniBot1b.Set(false);
				MiniBot2a.Set(false);
				MiniBot2b.Set(false);
			}
			
			Wait(0.01);				// wait for a motor update time
		}
	}
コード例 #2
0
ファイル: k9.cpp プロジェクト: errorcodexero/k9
    void RunWheels()
    {
//	uint32_t t0, t1, t2, t3;

	// schedule updates to avoid overloading CAN bus or CPU
	switch (report++) {
	case 12:		// 240 milliseconds
	    report = 0;		// reset counter
	case 0:
	    // Update PID parameters
	    double newP = SmartDashboard::GetNumber("Shooter P");
	    double newI = SmartDashboard::GetNumber("Shooter I");
	    double newD = SmartDashboard::GetNumber("Shooter D");
	    if (newP != kP || newI != kI || newD != kD) {
		kP = newP;
		kI = newI;
		kD = newD;
#ifdef HAVE_TOP_WHEEL
		if (topPID) {
#ifdef HAVE_TOP_CAN1
		    ; // topWheel1->SetPID( kP, kI, kD );
#endif
#ifdef HAVE_TOP_CAN2
		    topWheel2->SetPID( kP, kI, kD );
#endif
		}
#endif
#ifdef HAVE_BOTTOM_WHEEL
		if (bottomPID) {
#ifdef HAVE_BOTTOM_CAN1
		    ; // bottomWheel1->SetPID( kP, kI, kD );
#endif
#ifdef HAVE_BOTTOM_CAN2
		    bottomWheel2->SetPID( kP, kI, kD );
#endif
		}
#endif
	    }
	    break;

	case 4:			// 80 milliseconds
#ifdef HAVE_TOP_WHEEL
//t0 = GetFPGATime();
	    // Get top output voltage, current and measured speed
#ifdef HAVE_TOP_CAN1
	    double topI1 = topWheel1->GetOutputCurrent();
#endif
#ifdef HAVE_TOP_CAN2
	    double topI2 = topWheel2->GetOutputCurrent();
	    topJagSpeed  = topWheel2->GetSpeed(); 
#endif
//t1 = GetFPGATime();
	    topTachSpeed = topTach->PIDGet();

#ifdef HAVE_TOP_CAN1
	    // stupid floating point!
	    Log(LOG_CURRENT, 1, (uint32_t)(topI1 * 1000 + 0.5));
#endif
#ifdef HAVE_TOP_CAN2
	    Log(LOG_CURRENT, 2, (uint32_t)(topI2 * 1000 + 0.5));
	    Log(LOG_SPEED,   2, (uint32_t)(topJagSpeed + 0.5));
#endif

	    // Send values to SmartDashboard
#ifdef HAVE_TOP_CAN1
	    SmartDashboard::PutNumber("Top Current 1", topI1);
#endif
#ifdef HAVE_TOP_CAN2
	    SmartDashboard::PutNumber("Top Current 2", topI2);
	    SmartDashboard::PutNumber("Top Jag      ", topJagSpeed);
#endif
	    SmartDashboard::PutNumber("Top Tach     ", topTachSpeed);

	    // Get setpoint
	    topSpeed = SmartDashboard::GetNumber("Top Set      ");
//t2 = GetFPGATime();

	    if (spinFastNow) {
		if (topPID) {
		    if (topJagSpeed < topSpeed * vbusThreshold) {
			topPID = false;
			// below threshold: switch both motors to full output
#ifdef HAVE_TOP_CAN1
			jagVbus(topWheel1, maxOutput);
			Log(LOG_MODE, 1, 1);
#endif
#ifdef HAVE_TOP_PWM1
			topWheel1->Set(maxOutput);
			Log(LOG_MODE, 1, 1);
#endif
#ifdef HAVE_TOP_CAN2
			jagVbus(topWheel2, maxOutput);
			Log(LOG_MODE, 2, 1);
#endif
		    } else {
			; // above threshold: run motor 1 off, PID on motor 2
#ifdef HAVE_TOP_CAN1
			topWheel1->Set(0.0);
#endif
#ifdef HAVE_TOP_PWM1
			topWheel1->Set(0.0);
#endif
#ifdef HAVE_TOP_CAN2
			topWheel2->Set(topSpeed);
#endif
		    }
		} else {
		    if (topJagSpeed >= topSpeed * pidThreshold) {
			; // above threshold: switch motor 1 off, motor 2 PID
			topPID = true;
#ifdef HAVE_TOP_CAN1
			topWheel1->Set(0.0);
#endif
#ifdef HAVE_TOP_PWM1
			topWheel1->Set(0.0);
#endif
#ifdef HAVE_TOP_CAN2
			jagPID(topWheel2, topSpeed);
			Log(LOG_MODE, 2, 2);
#endif
		    } else {
			; // below threshold: run both motors at full output
#ifdef HAVE_TOP_CAN1
			topWheel1->Set(maxOutput);
#endif
#ifdef HAVE_TOP_PWM1
			topWheel1->Set(maxOutput);
#endif
#ifdef HAVE_TOP_CAN2
			topWheel2->Set(maxOutput);
#endif
		    }
		}
//t3 = GetFPGATime();
//printf("%10u %10u %10u\n", (uint32_t)(t1 - t0), (uint32_t)(t2 - t1), (uint32_t)(t3 - t2));
	    }
#endif

	    break;

	case 8:		// 160 milliseconds
#ifdef HAVE_BOTTOM_WHEEL
	    // Get bottom output voltage, current and measured speed
//t0 = GetFPGATime();
#ifdef HAVE_BOTTOM_CAN1
	    double bottomI1 = bottomWheel1->GetOutputCurrent();
#endif
#ifdef HAVE_BOTTOM_CAN2
	    double bottomI2 = bottomWheel2->GetOutputCurrent();
	    bottomJagSpeed  = bottomWheel2->GetSpeed();
#endif
//t1 = GetFPGATime();
	    bottomTachSpeed = bottomTach->PIDGet();

#ifdef HAVE_BOTTOM_CAN1
	    Log(LOG_CURRENT, 3, (uint32_t)(bottomI1 * 1000 + 0.5));
#endif
#ifdef HAVE_BOTTOM_CAN2
	    Log(LOG_CURRENT, 4, (uint32_t)(bottomI2 * 1000 + 0.5));
	    Log(LOG_SPEED,   4, (uint32_t)(bottomJagSpeed + 0.5));
#endif

	    // Send values to SmartDashboard
#ifdef HAVE_BOTTOM_CAN1
	    SmartDashboard::PutNumber("Bottom Current 1", bottomI1);
#endif
#ifdef HAVE_BOTTOM_CAN2
	    SmartDashboard::PutNumber("Bottom Current 2", bottomI2);
	    SmartDashboard::PutNumber("Bottom Jag      ", bottomJagSpeed);
#endif
	    SmartDashboard::PutNumber("Bottom Tach     ", bottomTachSpeed);

	    // Get setpoint
	    bottomSpeed = SmartDashboard::GetNumber("Bottom Set      ");
//t2 = GetFPGATime();

	    if (spinFastNow) {
		if (bottomPID) {
		    if (bottomJagSpeed < bottomSpeed * vbusThreshold) {
			bottomPID = false;
			// below threshold: switch both motors to full output
#ifdef HAVE_BOTTOM_CAN1
			jagVbus(bottomWheel1, maxOutput);
			Log(LOG_MODE, 3, 1);
#endif
#ifdef HAVE_BOTTOM_PWM1
			bottomWheel1->Set(maxOutput);
			Log(LOG_MODE, 3, 1);
#endif
#ifdef HAVE_BOTTOM_CAN2
			jagVbus(bottomWheel2, maxOutput);
			Log(LOG_MODE, 4, 1);
#endif
		    } else {
			; // above threshold: run motor 1 off, PID on motor 2
#ifdef HAVE_BOTTOM_CAN1
			bottomWheel1->Set(0.0);
#endif
#ifdef HAVE_BOTTOM_PWM1
			bottomWheel1->Set(0.0);
#endif
#ifdef HAVE_BOTTOM_CAN2
			bottomWheel2->Set(bottomSpeed);
#endif
		    }
		} else {
		    if (bottomJagSpeed >= bottomSpeed * pidThreshold) {
			// above threshold: switch motor 1 off, motor 2 PID
			bottomPID = true;
#ifdef HAVE_BOTTOM_CAN1
			bottomWheel1->Set(0.0);
#endif
#ifdef HAVE_BOTTOM_PWM1
			bottomWheel1->Set(0.0);
#endif
#ifdef HAVE_BOTTOM_CAN2
			jagPID(bottomWheel2, bottomSpeed);
			Log(LOG_MODE, 4, 2);
#endif
		    } else {
			; // below threshold: run both motors at full output
#ifdef HAVE_BOTTOM_CAN1
			bottomWheel1->Set(maxOutput);
#endif
#ifdef HAVE_BOTTOM_PWM1
			bottomWheel1->Set(maxOutput);
#endif
#ifdef HAVE_BOTTOM_CAN2
			bottomWheel2->Set(maxOutput);
#endif
		    }
		}
//t3 = GetFPGATime();
//printf("%10u %10u %10u\n", (uint32_t)(t1 - t0), (uint32_t)(t2 - t1), (uint32_t)(t3 - t2));
	    }
#endif
	    break;
	}
    }