/*
This software is subject to the license described in the License.txt file
included with this software distribution. You may not use this file except in compliance
with this license.
Copyright (c) Dynastream Innovations Inc. 2012
All rights reserved.
*/
#include "StdAfx.h"
#include "BikeCadenceDisplay.h"
/**************************************************************************
* BikeCadenceDisplay::ANT_eventNotification
*
* Process ANT channel event
*
* ucEventCode_: code of ANT channel event
* pucEventBuffer_: pointer to buffer containing data received from ANT,
* or a pointer to the transmit buffer in the case of an EVENT_TX
*
* returns: N/A
*
**************************************************************************/
void BikeCadenceDisplay::ANT_eventNotification(UCHAR ucEventCode_, UCHAR* pucEventBuffer_)
{
switch(ucEventCode_)
{
case EVENT_RX_ACKNOWLEDGED:
case EVENT_RX_BURST_PACKET: // intentional fall thru
case EVENT_RX_BROADCAST:
HandleReceive((UCHAR*) pucEventBuffer_);
break;
default:
break;
}
}
/**************************************************************************
* BikeCadenceDisplay::InitializeSim
*
* Initializes simulator variables
*
* returns: N/A
*
**************************************************************************/
void BikeCadenceDisplay::InitializeSim()
{
ucStatePage = BC_INIT_PAGE;
usEventCount = 0;
usPreviousEventCount = 0;
usTime1024 = 0;
usPreviousTime1024 = 0;
ulElapsedTime2 = 0;
bCoast = FALSE;
ulAcumEventCount = 0;
ulAcumTime1024 = 0;
ucCadence = 0;
ucMfgID = 0;
ucHwVersion = 0;
ucSwVersion = 0;
ucModelNum = 0;
usSerialNum = 0;
}
/**************************************************************************
* BikeCadenceDisplay::HandleReceive
*
* Decodes received data
*
* pucRxBuffer_: pointer to the buffer containing the received data
*
* returns: N/A
*
**************************************************************************/
void BikeCadenceDisplay::HandleReceive(UCHAR* pucRxBuffer_)
{
static UCHAR ucNoEventCount = 0; // Counter for successive transmissions with no new cadence events
UCHAR ucPageNum = 0;
USHORT usEventDiff = 0;
USHORT usTimeDiff1024 = 0;
// Monitor page toggle bit
if(ucStatePage != BC_EXT_PAGE)
{
if(ucStatePage == BC_INIT_PAGE)
{
ucStatePage = (pucRxBuffer_[0] & BC_TOGGLE_MASK) >>7;
// Initialize previous values to correctly get the cumulative values
usPreviousTime1024 = pucRxBuffer_[4];
usPreviousTime1024 += pucRxBuffer_[5]<<8;
usPreviousEventCount = pucRxBuffer_[6];
usPreviousEventCount += pucRxBuffer_[7]<<8;
}
else if(ucStatePage != ((pucRxBuffer_[0] & BC_TOGGLE_MASK) >>7))
{
// First page toggle was seen, enable advanced data
ucStatePage = BC_EXT_PAGE;
}
}
// Remove page toggle bit
ucPageNum = pucRxBuffer_[0] & ~BC_TOGGLE_MASK;
// Handle basic data
usEventCount = pucRxBuffer_[6];
usEventCount += pucRxBuffer_[7]<<8;
usTime1024 = pucRxBuffer_[4];
usTime1024 += pucRxBuffer_[5]<<8;
// Handle advanced data, if supported
if(ucStatePage == BC_EXT_PAGE)
{
switch(ucPageNum)
{
case BC_PAGE1:
// Battery Time Page
ulElapsedTime2 = pucRxBuffer_[1];
ulElapsedTime2 += pucRxBuffer_[2] << 8;
ulElapsedTime2 += pucRxBuffer_[3] << 16;
break;
case BC_PAGE2:
// Manf Info Page
ucMfgID = pucRxBuffer_[1];
usSerialNum = pucRxBuffer_[2];
usSerialNum += pucRxBuffer_[3] << 8;
break;
case BC_PAGE3:
// Version Info Page
ucHwVersion = pucRxBuffer_[1];
ucSwVersion = pucRxBuffer_[2];
ucModelNum = pucRxBuffer_[3];
break;
default:
break;
}
}
// Only need to do calculations if dealing with a new event
if(usEventCount != usPreviousEventCount)
{
ucNoEventCount = 0;
bCoast = FALSE;
// Update cumulative event count
if(usEventCount > usPreviousEventCount)
usEventDiff = usEventCount - usPreviousEventCount;
else
usEventDiff = (USHORT) (0xFFFF - usPreviousEventCount + usEventCount + 1);
ulAcumEventCount += usEventDiff;
// Update cumulative time (1/1024s)
if(usTime1024 > usPreviousTime1024)
usTimeDiff1024 = usTime1024 - usPreviousTime1024;
else
usTimeDiff1024 = (USHORT) (0xFFFF - usPreviousTime1024 + usTime1024 + 1);
ulAcumTime1024 += usTimeDiff1024;
// Calculate cadence (rpm)
if(usTimeDiff1024 > 0)
ucCadence = (UCHAR) ( ((ULONG) usEventDiff * 0xF000) / (ULONG) usTimeDiff1024 ); // 1 min = 0xF000 = 60 * 1024
}
else
{
ucNoEventCount++;
if(ucNoEventCount >= MAX_NO_EVENTS)
bCoast = TRUE; // Coasting
}
// Display data
UpdateDisplay(ucPageNum);
// Update previous time and event count
usPreviousEventCount = usEventCount;
usPreviousTime1024 = usTime1024;
}
/**************************************************************************
* BikeCadenceDisplay::UpdateDisplay
*
* Shows received decoded data on GUI
*
* ucPageNum_: received page
*
* returns: N/A
*
**************************************************************************/
void BikeCadenceDisplay::UpdateDisplay(UCHAR ucPageNum_)
{
// Display basic data
this->label_Trn_TimeDisplay->Text = usTime1024.ToString();
this->label_Trn_EventCountDisplay->Text = usEventCount.ToString();
this->label_Coasting->Visible = (bCoast == TRUE);
// Display advanced data, if available
if(ucStatePage == BC_EXT_PAGE)
{
this->label_Calc_waitToggle->Visible = false; // Page toggle already seen
switch(ucPageNum_)
{
case BC_PAGE1:
this->label_Glb_BattTimeDisplay->Text = (ulElapsedTime2*2).ToString();
break;
case BC_PAGE2:
this->label_Glb_ManfIDDisplay->Text = ucMfgID.ToString();
this->label_Glb_SerialNumDisplay->Text = usSerialNum.ToString();
break;
case BC_PAGE3:
this->label_Glb_HardwareVerDisplay->Text = ucHwVersion.ToString();
this->label_Glb_SoftwareVerDisplay->Text = ucSwVersion.ToString();
this->label_Glb_ModelNumDisplay->Text = ucModelNum.ToString();
break;
default:
break;
}
}
// Display calculations
// Cumulative time (in s)
this->label_Calc_ElapsedSecsDisplay->Text = System::Math::Round((DOUBLE) ulAcumTime1024/1024,3).ToString();
// Cumulative event count
this->label_Calc_TotEventCountDisplay->Text = ulAcumEventCount.ToString();
// Calculated cadence
this->label_Calc_CadenceDisplay->Text = ucCadence.ToString();
}