Ejemplo n.º 1
0
//*****************************************************************************
//
//! Control robot to go straight forward by following wall
//!
//!
//! \return true if left/right wall is detected
//!			false if no left/right wall is detected
//
static bool Forward()
{
	LED1_OFF();LED2_ON();LED3_OFF();
	//bluetooth_print("%d\r\n",avrSpeed);
	if ((!isWallLeft) || (!isWallRight))
	{
		forwardUpdateByWall();
		return true;
	}
	forwardUpdate();
	if (avrSpeed<AVG_SPEED_FWD_FAST-20)
		avrSpeed+=20;
	else if (avrSpeed>AVG_SPEED_FWD_FAST)
		avrSpeed=AVG_SPEED_FWD_FAST;

	if (isWallRight)
	{
		pid_wallfollow(leftError,rightError, avrSpeed,WALL_FOLLOW_RIGHT);
	}
	else if (isWallLeft)
	{
		pid_wallfollow(leftError,rightError, avrSpeed,WALL_FOLLOW_LEFT);
	}
	else
	{
		speed_set(MOTOR_RIGHT, avrSpeed);
		speed_set(MOTOR_LEFT, avrSpeed);
	}

	return false;
}
Ejemplo n.º 2
0
void dspGLTransactions::sFillList()
{
    if (!_metrics->boolean("ManualForwardUpdate") &&
            _showRunningTotal->isChecked() &&
            _showRunningTotal->isVisible())
    {
        if (!forwardUpdate())
            return;
    }

    ParameterList params;
    if (! setParams(params))
        return;

    if (_showRunningTotal->isChecked() &&
            _showRunningTotal->isVisible())
    {
        list()->showColumn("running");
        qDebug("begbal %f", params.value("beginningBalance").toDouble());
        _beginningBalance->setDouble(params.value("beginningBalance").toDouble());
    }
    else
        list()->hideColumn("running");

    display::sFillList();
}
Ejemplo n.º 3
0
void dspTrialBalances::sPrint()
{
  if (!_metrics->boolean("ManualForwardUpdate"))
  {
    if (!forwardUpdate())
      return;
  }
  
  display::sPrint();
}
Ejemplo n.º 4
0
void dspGLTransactions::sPrint()
{
  if (!_metrics->boolean("ManualForwardUpdate") && 
       _showRunningTotal->isChecked())
  {
    if (!forwardUpdate())
      return;
  }
  
  display::sPrint();
}
Ejemplo n.º 5
0
void dspTrialBalances::sFillList()
{
  list()->clear();
  if (!_metrics->boolean("ManualForwardUpdate"))
  {
    if (!forwardUpdate())
      return;
  }
  
  display::sFillList();
}
Ejemplo n.º 6
0
void dspFinancialReport::sFillList()
{
  if (!sCheck())
    return; 
  if (!_metrics->boolean("ManualForwardUpdate"))
  {
    if (!forwardUpdate())
      return;
  }
  if (_trend->isChecked())
    sFillListTrend();
  else
    sFillListStatement();
}
Ejemplo n.º 7
0
void dspTrialBalances::sPrint()
{
  if (!_metrics->boolean("ManualForwardUpdate"))
  {
    if (!forwardUpdate())
      return;
  }
  
  ParameterList params;
  setParams(params);

  orReport report("TrialBalances", params);
  if (report.isValid())
    report.print();
  else
    report.reportError(this);
}
Ejemplo n.º 8
0
void dspGLTransactions::sPrint()
{
  if (!_metrics->boolean("ManualForwardUpdate") && 
       _selectedAccount->isChecked() && 
       _showRunningTotal->isChecked())
  {
    if (!forwardUpdate())
      return;
  }
  
  ParameterList params;
  if (! setParams(params))
    return;

  orReport report("GLTransactions", params);

  if (report.isValid())
    report.print();
  else
    report.reportError(this);
}
Ejemplo n.º 9
0
void pid_Wallfollow_process(void)
{
	if (ControlFlag)
	{
		static int i;
		pid_Runtimeout(&pid_process_callback, ui32_msLoop);
		ControlFlag = false;

		leftError=(float)IR_get_calib_value(IR_CALIB_BASE_LEFT) - (float)IR_GetIrDetectorValue(1);
		rightError=(float)IR_get_calib_value(IR_CALIB_BASE_RIGHT) - (float)IR_GetIrDetectorValue(2);
		isWallLeft = IR_GetIrDetectorValue(1)<IR_get_calib_value(IR_CALIB_MAX_LEFT);
		isWallRight = IR_GetIrDetectorValue(2)<IR_get_calib_value(IR_CALIB_MAX_RIGHT);
		isWallFrontLeft = IR_GetIrDetectorValue(0)<IR_get_calib_value(IR_CALIB_MAX_FRONT_LEFT);
		isWallFrontRight = IR_GetIrDetectorValue(3)<IR_get_calib_value(IR_CALIB_MAX_FRONT_RIGHT);


		switch(eMove)
		{
		case FORWARD:
			switch (moveStage)
			{
			case 1:
				if (Forward())
					moveStage++;
				if (isWallFrontLeft| isWallFrontRight)
				{
					preMove=eMove;
					eMove=getMove(isWallLeft,isWallFrontLeft|isWallFrontRight,isWallRight);
				}
				break;
			case 2:
				posLeftTmp=qei_getPosLeft();
				moveStage++;
				i=1;
				avrSpeedTmp=avrSpeed;
			case 3://slow down
				forwardUpdate();
				if (!isWallLeft)
				{
					rqTurnLeft=true;
				}
				if (!isWallRight)
				{
					rqTurnRight=true;
				}
				if ((abs(qei_getPosLeft()-posLeftTmp)<5000)
						&& (!isWallFrontLeft) && (!isWallFrontRight))
				{
					if ((abs(qei_getPosLeft()-posLeftTmp)>i*500) && (avrSpeed>AVG_SPEED_FWD-40))
					{
						avrSpeed -= 10;
						i++;
					}
					if (isWallLeft|isWallRight)
						pid_wallfollow(leftError,rightError, avrSpeed,WALL_FOLLOW_AUTO);
					else
					{
						pid_reset(&pid_wall_left);
						pid_reset(&pid_wall_right);
						speed_set(MOTOR_RIGHT, avrSpeed);
						speed_set(MOTOR_LEFT, avrSpeed);
					}
				}
				else
				{
#ifdef TEST_FORWARD_MOVE
					speed_Enable_Hbridge(false);
#endif
					preMove=eMove;
					eMove=getMove(!rqTurnLeft,isWallFrontLeft|isWallFrontRight,!rqTurnRight);
					if (eMove==FORWARD)
						avrSpeed=AVG_SPEED_FWD;
					rqTurnLeft=false;
					rqTurnRight=false;
					moveStage=1;
				}
				break;
			}
			break;

		case TURN_LEFT:
			switch (moveStage)
			{
			case 1:
				if (preMove!=FORWARD)//after turning left or right
					//test
					// ____
					// |   |
					// | | |
					fwdPulse=6000;
				else if ((preMove==FORWARD) && (avrSpeed<AVG_SPEED_FWD_FAST))
					//after turning back
					//test
					// ___
					// |__   |
					//    |__|
					fwdPulse=5500;
				else//after moving forward
					//test
					// ___
					// ___  |
					//    | |
					//    |_|
					fwdPulse=4500;
				moveStage++;

			case 2:
				if (TurnLeft(fwdPulse,60,240,7800,1700+CELL_ENC))
				{
					moveStage++;
				}
				break;
			case 3:
				posLeftTmp=qei_getPosLeft();
				moveStage++;
			case 4:
				//go straight a little bit to check wall
				forwardUpdate();
				if (abs(qei_getPosLeft()-posLeftTmp)<2000)
				{
					if (abs(qei_getPosLeft()-posLeftTmp)>1500)
					{
						if (!isWallRight)
							rqTurnRight=1;
						if (!isWallLeft)
							rqTurnLeft=1;
					}
					avrSpeed=AVG_SPEED_FWD_SLOW;
					if (isWallLeft|isWallRight)
						pid_wallfollow(leftError,rightError, avrSpeed,WALL_FOLLOW_AUTO);
					else
					{
						pid_reset(&pid_wall_left);
						pid_reset(&pid_wall_right);
						speed_set(MOTOR_RIGHT, avrSpeed);//left motor is faster
						speed_set(MOTOR_LEFT, avrSpeed);
					}
				}
				else
				{
#ifdef TEST_TURNLEFT_MOVE3
					speed_Enable_Hbridge(false);
#endif
					//time to check front wall
					preMove=eMove;
					eMove=getMove(!rqTurnLeft,isWallFrontLeft|isWallFrontRight,!rqTurnRight);
					rqTurnLeft=false;
					rqTurnRight=false;
					moveStage=1;
					pid_reset(&pid_wall_left);
					pid_reset(&pid_wall_right);
				}
			}
			break;

		case TURN_RIGHT:
			switch (moveStage)
			{
			case 1:
				if (preMove!=FORWARD)//after turning left or right
					//test
					// ____
					// |   |
					// | | |
					fwdPulse=6000;
				else if ((preMove==FORWARD) && (avrSpeed<AVG_SPEED_FWD_FAST))
					//after turning back
					//test
					// 	  ____
					// |  ____
					// |__|
					fwdPulse=5500;
				else//after moving forward
					//test
					//   _____
					// | _____
					// | |
					// |_|
					fwdPulse=4500;
				moveStage++;
			case 2:
				if (TurnRight(fwdPulse,200,40,8000,1700+CELL_ENC))
				{
					moveStage++;
				}
				break;
			case 3:
				posLeftTmp=qei_getPosLeft();
				moveStage++;
			case 4:
				forwardUpdate();
				if (abs(qei_getPosLeft()-posLeftTmp)<1000)
				{
					if (abs(qei_getPosLeft()-posLeftTmp)>500)
					{
						if (!isWallRight)
							rqTurnRight=1;
						if (!isWallLeft)
							rqTurnLeft=1;
					}
					avrSpeed=AVG_SPEED_FWD_SLOW;
					if (isWallLeft|isWallRight)
						pid_wallfollow(leftError,rightError, avrSpeed,WALL_FOLLOW_AUTO);
					else
					{
						pid_reset(&pid_wall_left);
						pid_reset(&pid_wall_right);
						speed_set(MOTOR_RIGHT, avrSpeed);
						speed_set(MOTOR_LEFT, avrSpeed);
					}
				}
				else
				{
#ifdef TEST_TURNRIGHT_MOVE3
					speed_Enable_Hbridge(false);
#endif
					preMove=eMove;
					eMove=getMove(!rqTurnLeft,isWallFrontLeft|isWallFrontRight,!rqTurnRight);
					rqTurnLeft=false;
					rqTurnRight=false;
					moveStage=1;
					pid_reset(&pid_wall_left);
					pid_reset(&pid_wall_right);
				}
			}
			break;
		case TURN_BACK:
			switch (moveStage)
			{
			case 1:
				if (preMove==FORWARD)
					fwdPulse=8000;
				else
					fwdPulse=9000;
				moveStage++;
			case 2:
				if (TurnBack(fwdPulse,-140,60,8000,13000))
				{
					//rotate more if we still detect front wall: do it yourself ;D
					moveStage++;
				}
				break;
			case 3:
				if (move(-9000,-9000,AVG_SPEED_BWD,AVG_SPEED_BWD))
				{
#ifdef TEST_TURNBACK_BACKWARD
					speed_Enable_Hbridge(false);
#endif
					forwardUpdate();
					avrSpeed = AVG_SPEED_FWD_SLOW;
					preMove=eMove;
					eMove=FORWARD;
					moveStage = 1;
				}
			}



			break;
		}
	}
}
Ejemplo n.º 10
0
//*****************************************************************************
//
//! Control two motor to make robot turn back 180 degree.
//!
//! \param fwdPulse is the distance robot will go straight before turn right
//!, the robot will stand between the next cell of maze.
//! \param avrSpeedLeft is the speed of left motor.
//! \param avrSpeedRight is the speed of left motor.
//! \param NumPulse is the total pulse of two encoder after turn
//! \param resetEnc is the reset value for encoder after turning back
//! \return true if finish
//!			false if not
//
static bool TurnBack(int fwdPulse, int avrSpeedLeft,int avrSpeedRight,int turnPulse,
		int resetEnc)
{
	LED1_ON();LED2_ON();LED3_ON();
	switch (CtrlStep)
	{
	case 1:
	{
		posLeftTmp = qei_getPosLeft();
		avrSpeedTmp = avrSpeed;
		CtrlStep++;
	}
	case 2://go forward a litte bit
	{

		if (abs(qei_getPosLeft()-posLeftTmp)<fwdPulse)
		{
			avrSpeed = ((abs(fwdPulse + posLeftTmp - qei_getPosLeft()) / (fwdPulse / avrSpeedTmp)) / 2)
					+ (abs(avrSpeedLeft) + abs(avrSpeedRight)) / 2;
			if (isWallRight)
				pid_wallfollow(leftError,rightError,avrSpeed,WALL_FOLLOW_RIGHT);
			else if (isWallLeft)
				pid_wallfollow(leftError,rightError,avrSpeed,WALL_FOLLOW_LEFT);
			else
			{
				speed_set(MOTOR_RIGHT, avrSpeed);
				speed_set(MOTOR_LEFT, avrSpeed);
			}
		}
		else
		{
			pid_reset(&pid_wall_left);
			pid_reset(&pid_wall_right);
			forwardUpdate();
			CtrlStep++;
			avrSpeed = avrSpeedTmp;
		}
		break;
	}
	case 3:
		posLeftTmp=qei_getPosLeft();
		posRightTmp=qei_getPosRight();
		CtrlStep++;
	case 4://turing 90 degree
	{
#ifdef TEST_TURNBACK_FWD
		speed_Enable_Hbridge(false);
#endif
		if ((abs(qei_getPosLeft()-posLeftTmp)+abs(qei_getPosRight()-posRightTmp))<turnPulse)
		{
			speed_set(MOTOR_RIGHT, avrSpeedRight);
			speed_set(MOTOR_LEFT, avrSpeedLeft);
		}
		else
		{
			currentDir=(currentDir+3)%4;
			CtrlStep++;
		}
		break;
	}
	case 5:
		posLeftTmp=qei_getPosLeft();
		posRightTmp=qei_getPosRight();
		CtrlStep++;
	case 6://turning another 90 degree
	{
#ifdef TEST_TURNBACK_TURN1
		speed_Enable_Hbridge(false);
#endif

		if ((abs(qei_getPosLeft()-posLeftTmp)+abs(qei_getPosRight()-posRightTmp))<turnPulse)
		{
			speed_set(MOTOR_RIGHT, -avrSpeedLeft);
			speed_set(MOTOR_LEFT, -avrSpeedRight);
		}
		else
		{
#ifdef TEST_TURNBACK_TURN2
		speed_Enable_Hbridge(false);
#endif
			currentDir=(currentDir+3)%4;
			clearPosition();
			qei_setPosLeft(resetEnc);
			qei_setPosRight(resetEnc);
			forwardUpdate();
			CtrlStep=1;
			return true;
		}
		break;
	}
	}
	return false;
}
Ejemplo n.º 11
0
//*****************************************************************************
//
//! Control two motor to make robot turn left 90 degree
//!
//! \param fwdPulse is the distance robot will go straight before turn right
//!, the robot will stand between the next cell of maze.
//! \param avrSpeedLeft is the speed of left motor.
//! \param avrSpeedRight is the speed of right motor.
//! \param turnPulse is the total pulse of two encoder after turn
//! \param resetEnc is reset value for encoder after turning 90 degree, ignore this if you don't want to estimate position
//! \return true if finish
//!			false if not
//
//*****************************************************************************
static bool TurnLeft(int fwdPulse,int avrSpeedLeft,int avrSpeedRight,int turnPulse,
		int resetEnc)
{
	static int vt,vp;
	LED1_ON();LED2_OFF();LED3_OFF();
//	bluetooth_print("LS %d\r\n",CtrlStep);
	switch (CtrlStep)
	{
	case 1:
		posLeftTmp=qei_getPosLeft();
		CtrlStep++;
		avrSpeedTmp=avrSpeed;
	case 2://go straight
		if ((abs(qei_getPosLeft()-posLeftTmp)<fwdPulse) ||
				(isWallFrontLeft && isWallFrontRight &&
				(IR_GetIrDetectorValue(3)>IR_get_calib_value(IR_CALIB_BASE_FRONT_RIGHT))&&
				(IR_GetIrDetectorValue(0)>IR_get_calib_value(IR_CALIB_BASE_FRONT_LEFT))))

		{
			if (qei_getPosLeft()<fwdPulse+posLeftTmp)
				avrSpeed = ((abs(fwdPulse + posLeftTmp - qei_getPosLeft()) / (fwdPulse / avrSpeedTmp)) / 2)
					+ (abs(avrSpeedLeft) + abs(avrSpeedRight)) / 2;
			else
				avrSpeed = (abs(avrSpeedLeft) + abs(avrSpeedRight)) / 2;

			if (isWallRight)
				pid_wallfollow(leftError,rightError,avrSpeed,WALL_FOLLOW_RIGHT);
			else
			{
				speed_set(MOTOR_RIGHT, avrSpeed);
				speed_set(MOTOR_LEFT, avrSpeed);
			}
		}
		else
		{
#ifdef TEST_TURNLEFT_MOVE1
		speed_Enable_Hbridge(false);
#endif

			pid_reset(&pid_wall_right);
			pid_reset(&pid_wall_left);
			forwardUpdate();
			CtrlStep++;
			avrSpeed=avrSpeedTmp;
		}
		break;
	case 3:
		posLeftTmp=qei_getPosLeft();
		posRightTmp=qei_getPosRight();
		CtrlStep++;
		vp=1;
		vt=1;
	case 4://turn 90 degree

		if (abs(qei_getPosLeft()-posLeftTmp) + abs(qei_getPosRight()-posRightTmp) < turnPulse)

		{
			speed_set(MOTOR_RIGHT, avrSpeedRight);
			speed_set(MOTOR_LEFT, -avrSpeedLeft);
			if((abs(qei_getPosRight()-posRightTmp)>(turnPulse*0.8*vp/8)) && (vp<9))
			{
				if (avrSpeedRight>=24)
					avrSpeedRight-=24;
				vp++;

			}
			if((abs(qei_getPosLeft()-posLeftTmp)>(turnPulse*0.2*vt/8)) && (vt<9))
			{
				if (avrSpeedLeft>=4)
					avrSpeedLeft-=4;
				vt++;
			}
		}
		else
		{
#ifdef TEST_TURNLEFT_TURN
		speed_Enable_Hbridge(false);
#endif
			currentDir=(currentDir+3)%4;
			clearPosition();
			qei_setPosLeft(resetEnc);
			qei_setPosRight(resetEnc);
			forwardUpdate();
			CtrlStep=1;
			pid_reset(&pid_wall_left);
			pid_reset(&pid_wall_right);
			speed_set(MOTOR_LEFT, avrSpeed);
			speed_set(MOTOR_RIGHT, avrSpeed);
			return true;
		}
		break;
	}
	return false;

}
Ejemplo n.º 12
0
void dspTrialBalances::sFillList()
{
  _trialbal->clear();
  if (!_metrics->boolean("ManualForwardUpdate"))
  {
    if (!forwardUpdate())
      return;
  }
  
  QString sql( "SELECT accnt_id, period_id, accnt_descrip, trialbal_dirty,"
               "       period_start, period_end,"
               "       formatGLAccount(accnt_id) AS account,"
               "       (trialbal_debits) AS debits,"
               "       (trialbal_credits) AS credits,"
               "       trialbal_beginning AS beginning,"
               "       trialbal_ending AS ending,"
               "       (trialbal_debits - trialbal_credits) AS diff,"
               "       CASE WHEN ((trialbal_beginning*-1.0)<0.0) THEN 'CR' END AS beginningsense,"
               "       CASE WHEN ((trialbal_ending*-1.0)<0.0) THEN 'CR' END AS endingsense,"
               "       CASE WHEN ((trialbal_debits - trialbal_credits)<0.0) THEN 'CR' END AS diffsense,"
               "       'curr' AS beginning_xtnumericrole,"
               "       'curr' AS debits_xtnumericrole,"
               "       'curr' AS credits_xtnumericrole,"
               "       'curr' AS ending_xtnumericrole,"
               "       'curr' AS diff_xtnumericrole,"
               "       0 AS beginning_xttotalrole,"
               "       0 AS debits_xttotalrole,"
               "       0 AS credits_xttotalrole,"
               "       0 AS ending_xttotalrole,"
               "       0 AS diff_xttotalrole,"
			   "       CASE WHEN (trialbal_beginning < 0.0) THEN ABS(trialbal_beginning) END AS beginning_qtdisplayrole,"
			   "       CASE WHEN (trialbal_ending < 0.0) THEN ABS(trialbal_ending) END AS ending_qtdisplayrole,"
			   "       CASE WHEN ((trialbal_debits - trialbal_credits) < 0.0) THEN ABS(trialbal_debits - trialbal_credits) END AS diff_qtdisplayrole,"
               "       CASE WHEN (trialbal_dirty) THEN 'warning' END AS ending_qtforegroundrole "
               "FROM trialbal, accnt, period "
               "WHERE ( (trialbal_accnt_id=accnt_id)"
               " AND (trialbal_period_id=period_id)"
	       "<? if exists(\"accnt_id\") ?>"
	       " AND (trialbal_accnt_id=<? value(\"accnt_id\") ?>)"
	       "<? endif ?>"
	       "<? if exists(\"period_id\") ?>"
	       " AND (period_id=<? value(\"period_id\") ?>)"
	       "<? endif ?>"
         "<? if not exists(\"showZero\") ?>"
         " AND (abs(trialbal_beginning)+abs(trialbal_ending)+abs(trialbal_debits)+abs(trialbal_credits) > 0) "
         "<? endif ?>"
	       ") "
	       "ORDER BY period_start, formatGLAccount(accnt_id);" );

  ParameterList params;
  setParams(params);
  MetaSQLQuery mql(sql);
  q = mql.toQuery(params);
  if (q.first())
  {
    _trialbal->populate(q, true);
  }
  else if (q.lastError().type() != QSqlError::NoError)
  {
    systemError(this, q.lastError().databaseText(), __FILE__, __LINE__);
    return;
  }
}
Ejemplo n.º 13
0
void dspGLTransactions::sFillList()
{
  if (!_metrics->boolean("ManualForwardUpdate") && 
       _selectedAccount->isChecked() && 
       _showRunningTotal->isChecked())
  {
    if (!forwardUpdate())
      return;
  }

  MetaSQLQuery mql("SELECT gltrans.*,"
                   "       CASE WHEN(gltrans_docnumber='Misc.' AND"
                   "              invhist_docnumber IS NOT NULL) THEN"
                   "              (gltrans_docnumber || ' - ' || invhist_docnumber)"
                   "            ELSE gltrans_docnumber"
                   "       END AS docnumber,"
                   "       firstLine(gltrans_notes) AS notes,"
                   "       (formatGLAccount(accnt_id) || ' - ' || accnt_descrip) AS account,"
                   "       CASE WHEN (gltrans_amount < 0) THEN ABS(gltrans_amount)"
                   "            ELSE NULL"
                   "       END AS debit,"
                   "       CASE WHEN (gltrans_amount > 0) THEN gltrans_amount"
                   "            ELSE NULL"
                   "       END AS credit,"
                   "       CASE WHEN accnt_type IN ('A','E') THEN "
                   "         gltrans_amount * -1 "
                   "       ELSE gltrans_amount END AS running,"
                   "       'curr' AS debit_xtnumericrole,"
                   "       'curr' AS credit_xtnumericrole,"
                   "       'curr' AS running_xtnumericrole,"
                   "       0 AS running_xtrunningrole,"
                   "       <? value(\"beginningBalance\") ?> AS running_xtrunninginit "
                   "FROM gltrans JOIN accnt ON (gltrans_accnt_id=accnt_id) "
                   "     LEFT OUTER JOIN invhist ON (gltrans_misc_id=invhist_id"
                   "                            AND gltrans_docnumber='Misc.') "
                   "WHERE ((gltrans_date BETWEEN <? value(\"startDate\") ?>"
                   "                         AND <? value(\"endDate\") ?>)"
                   "<? if exists(\"accnt_id\") ?>"
                   " AND (gltrans_accnt_id=<? value(\"accnt_id\") ?>)"
                   "<? endif ?>"
                   "<? if exists(\"source\") ?>"
                   " AND (gltrans_source=<? value(\"source\") ?>)"
                   "<? endif ?>"
                   ") "
                   "ORDER BY gltrans_created"
                   "<? if not exists(\"beginningBalance\") ?> DESC <? endif ?>,"
                   "   gltrans_sequence, gltrans_amount;");
  ParameterList params;
  if (! setParams(params))
    return;

  _beginningBalanceLit->setVisible(_selectedAccount->isChecked() && _showRunningTotal->isChecked());
  _beginningBalance->setVisible(_selectedAccount->isChecked() && _showRunningTotal->isChecked());
  if (_selectedAccount->isChecked() && _showRunningTotal->isChecked())
  {
    _gltrans->showColumn("running");
    qDebug("begbal %f", params.value("beginningBalance").toDouble());
    _beginningBalance->setDouble(params.value("beginningBalance").toDouble());
  }
  else
    _gltrans->hideColumn("running");

  q = mql.toQuery(params);
  _gltrans->populate(q);
  if (q.lastError().type() != QSqlError::NoError)
  {
    systemError(this, q.lastError().databaseText(), __FILE__, __LINE__);
    return;
  }
}