TEST_F(TestMemFnPointerSample, All) {
    Counter counter;
    CountLater countLater;

    int expected = 0;
    EXPECT_EQ(expected, counter.Get());

    counter.Increment();
    ++expected;
    EXPECT_EQ(expected, counter.Get());
    counter.Decrement();
    counter.Decrement();
    expected -= 2;
    EXPECT_EQ(expected, counter.Get());

    countLater.Execute();
    EXPECT_EQ(expected, counter.Get());

    countLater.ExecuteLater(&counter, &Counter::Decrement);
    EXPECT_EQ(expected, counter.Get());
    --expected;
    for(int i=0; i<2; ++i) {
        countLater.Execute();
        EXPECT_EQ(expected, counter.Get());
    }

    countLater.ExecuteLater(&counter, &Counter::Increment);
    EXPECT_EQ(expected, counter.Get());
    countLater.ExecuteLater(&counter, &Counter::Increment);
    ++expected;
    EXPECT_EQ(expected, counter.Get());
}
Esempio n. 2
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/**
 * Read the current counter value.
 * Read the value at this instant. It may still be running, so it reflects the current value. Next
 * time it is read, it might have a different value.

 * @param channel The channel of the digital input used with this counter
 */
INT32 GetCounter(UINT32 channel)
{
    Counter *counter = AllocateCounter(channel);
    if (counter != NULL)
        return counter->Get();
    else
        return 0;
}
Esempio n. 3
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/**
 * Read the current counter value.
 * Read the value at this instant. It may still be running, so it reflects the current value. Next
 * time it is read, it might have a different value.

 * @param slot The slot the digital module is plugged into
 * @param channel The channel of the digital input used with this counter
 */
INT32 GetCounter(UINT8 moduleNumber, UINT32 channel)
{
    Counter *counter = AllocateCounter(moduleNumber, channel);
    if (counter != NULL)
        return counter->Get();
    else
        return 0;
}
Esempio n. 4
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	void UpdateGearCount ()
	//this function turns the relative gear tooth counter into an absolute counter
	{
		if (curForkSetSpeed < 0)
			forkDirection = inwards;
		else //curForkSetSpeed > 0; this function should not be called when curForkSpeed = 0, should on be called when the forks are moving;
			forkDirection = outwards;

		curGearToothCount = gearToothCounter->Get();
		absGearToothCount += forkDirection*(curGearToothCount-lastGearToothCount);
		lastGearToothCount = curGearToothCount;
	}
Esempio n. 5
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	void TeleopPeriodic()
	{
		char myString [STAT_STR_LEN];

		if (initialZeroing)  // moving to the inner limit
		{
			sprintf(myString, "initZero ip\n"); //in progress
			SmartDashboard::PutString("DB/String 0", myString);
			if (GetForkLimitSwitchMin())
			{
				SetForkMotor(MOTOR_SPEED_STOP);
				gearToothCounter->Reset();
				initialZeroing = false;
				sprintf(myString, "initZero comp\n"); //complete
				SmartDashboard::PutString("DB/String 0", myString);
			}
		}
		else  //manual control
		{
			//motor control
			if (joystick->GetRawButton(BUT_JS_OUT) && !GetForkLimitSwitchMax())  // move outwards
				SetForkMotor(MOTOR_SPEED_GO);
			else if(joystick->GetRawButton(BUT_JS_IN) && !GetForkLimitSwitchMin())  // move inwards
				SetForkMotor(-MOTOR_SPEED_GO);
			else
				SetForkMotor(MOTOR_SPEED_STOP); //stop

			//counter control
			if (joystick->GetRawButton(BUT_JS_RES_GTC))  // reset the gear tooth counter
				gearToothCounter->Reset();
		}

		//status
		sprintf(myString, "jsOut %d\n", joystick->GetRawButton(BUT_JS_OUT));
		SmartDashboard::PutString("DB/String 1", myString);
		sprintf(myString, "jsIn %d\n", joystick->GetRawButton(BUT_JS_IN));
		SmartDashboard::PutString("DB/String 2", myString);
		sprintf(myString, "jsResGtc %d\n", joystick->GetRawButton(BUT_JS_RES_GTC));
		SmartDashboard::PutString("DB/String 3", myString);
		sprintf(myString, "curr: %f\n", forkMotor->GetOutputCurrent());
		SmartDashboard::PutString("DB/String 4", myString);
		sprintf(myString, "gtc #: %d\n", gearToothCounter->Get()); //gtc count
		SmartDashboard::PutString("DB/String 5", myString);
	}
Esempio n. 6
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	void TeleopPeriodic()
	{
		char myString[64];
		float   y;


// get the joystick position and filter the deadband
		y = -joystick->GetY();

		if (y > -0.1 && y < 0.1)
			y = 0;

		sprintf(myString, "joystick setting: %f\n", y);
		SmartDashboard::PutString("DB/String 1", myString);
		motor->Set(y, 0); // set the speed of the motor
		sprintf(myString, "gear count: %d\n", gearToothCounter->Get());
		SmartDashboard::PutString("DB/String 2", myString);
		sprintf(myString, "gear stopped: %d\n", gearToothCounter->GetStopped());
		SmartDashboard::PutString("DB/String 3", myString);

//		sprintf(myString, "In val: %d\n", toothInput->GetValue());
//		SmartDashboard::PutString("DB/String 2", myString);
	}