int TestRingBuffer()
{
PrepareData();
RingBuffer<int> ringBuffer(100);
// test 1, test overwrite
size_t numWritten = ringBuffer.Write(testBuffer, 1024);
assert(ringBuffer.Capacity() == 100);
assert(ringBuffer.Size() == 100);
for (int i = 0; i < 100; i++)
{
assert(ringBuffer[i] == testBuffer[numWritten - 1 - i]);
}
// test 2, test partial write
ringBuffer.Reset();
assert(ringBuffer.Capacity() == 100);
assert(ringBuffer.Size() == 0);
numWritten = ringBuffer.Write(testBuffer, 10);
numWritten = ringBuffer.Write(testBuffer + 10, 10);
numWritten = ringBuffer.Write(testBuffer + 20, 80);
for (int i = 0; i < 100; i++)
{
assert(ringBuffer[i] == 99 - i);
}
assert(ringBuffer.WriteIndex() == 0);
ringBuffer.Write(testBuffer, 10);
assert(ringBuffer.WriteIndex() == 10);
return 0;
};
const Waypoint*
dlgWaypointSelect(SingleWindow &parent, const GeoPoint &_location,
OrderedTask *ordered_task,
const unsigned ordered_task_index)
{
dialog = LoadDialog(callback_table, parent, Layout::landscape ?
_T("IDR_XML_WAYPOINTSELECT_L") : _T("IDR_XML_WAYPOINTSELECT"));
assert(dialog != NULL);
#ifdef GNAV
dialog->SetKeyDownNotify(FormKeyDown);
#endif
const DialogLook &dialog_look = UIGlobals::GetDialogLook();
waypoint_list = (ListControl*)dialog->FindByName(_T("frmWaypointList"));
assert(waypoint_list != NULL);
waypoint_list->SetActivateCallback(OnWaypointListEnter);
waypoint_list->SetPaintItemCallback(OnPaintListItem);
waypoint_list->SetItemHeight(WaypointListRenderer::GetHeight(dialog_look));
name_button = (WndButton*)dialog->FindByName(_T("cmdFltName"));
name_button->SetOnLeftNotify(OnFilterNameButtonLeft);
name_button->SetOnRightNotify(OnFilterNameButtonRight);
distance_filter = (WndProperty*)dialog->FindByName(_T("prpFltDistance"));
direction_filter = (WndProperty*)dialog->FindByName(_T("prpFltDirection"));
type_filter = (WndProperty *)dialog->FindByName(_T("prpFltType"));
location = _location;
triangle_validator =
new FAITrianglePointValidator(ordered_task, ordered_task_index);
last_heading = CommonInterface::Calculated().heading;
PrepareData();
UpdateList();
dialog->SetTimerNotify(OnTimerNotify);
if (dialog->ShowModal() != mrOK) {
delete dialog;
delete triangle_validator;
return NULL;
}
unsigned index = waypoint_list->GetCursorIndex();
delete dialog;
delete triangle_validator;
const Waypoint* retval = NULL;
if (index < waypoint_select_info.size())
retval = waypoint_select_info[index].waypoint;
if (retval != NULL)
dlgWaypointSelectAddToLastUsed(*retval);
return retval;
}
void LoggableFrontend::Update()
{
if (!PrepareData())
{
FreeData();
return;
}
BeforePrint();
MessageList* pMessages = LockMessages();
if (!pMessages->empty())
{
Message* pFirstMessage = pMessages->front();
int iStart = m_iNeededLogFirstID - pFirstMessage->GetID() + 1;
if (iStart < 0)
{
PrintSkip();
iStart = 0;
}
for (unsigned int i = (unsigned int)iStart; i < pMessages->size(); i++)
{
PrintMessage((*pMessages)[i]);
m_iNeededLogFirstID = (*pMessages)[i]->GetID();
}
}
UnlockMessages();
PrintStatus();
FreeData();
fflush(stdout);
}
int CStock::PrepareBaseInfo( BOOL bReload )
{
// Load From File
PrepareData( CStock::dataBasetext, 0, bReload );
// Save To pText
int nTextLen = m_nBaseTextLen;
char * pText = NULL;
if( m_pBaseText && nTextLen > 0 )
{
pText = new CHAR[nTextLen+1];
if( pText ) memcpy( pText, m_pBaseText, nTextLen );
if( pText ) pText[nTextLen] = 0;
}
int nIntroLen = SLH_MAX * 80;
if( !AllocBaseTextMem( nIntroLen + m_nBaseTextLen + 10 ) )
return 0;
int nCount = 0;
for( int nVariantID = SLH_MIN; nVariantID <= SLH_MAX; nVariantID ++ )
{
CSPString strTemp = AfxGetVariantName( nVariantID, TRUE );
strTemp += ": \t";
strTemp += (LPCTSTR)AfxGetVariantDispString( nVariantID, m_stockinfo, NULL );
strTemp += STRING_CRLF;
SP_ASSERT( nCount + strTemp.GetLength() < nIntroLen );
if( nCount + strTemp.GetLength() < nIntroLen )
{
nCount += strTemp.GetLength();
strcat( m_pBaseText, (LPCTSTR)strTemp );
}
}
nCount += strlen(STRING_CRLF);
strcat( m_pBaseText, STRING_CRLF );
nCount += strlen(STRING_CRLF);
strcat( m_pBaseText, STRING_CRLF );
if( pText && nCount + nTextLen < m_nBaseTextLen )
{
nCount += nTextLen;
strcat( m_pBaseText, pText );
}
if( pText )
delete [] pText;
return nCount;
}
void NCursesFrontend::Update(int key)
{
// Figure out how big the screen is
CalcWindowSizes();
if (m_dataUpdatePos <= 0)
{
FreeData();
m_neededLogEntries = m_messagesWinClientHeight;
if (!PrepareData())
{
return;
}
// recalculate frame sizes
CalcWindowSizes();
}
if (m_inputMode == editQueue)
{
int queueSize = CalcQueueSize();
if (queueSize == 0)
{
m_selectedQueueEntry = 0;
m_inputMode = normal;
}
}
//------------------------------------------
// Print Current NZBInfoList
//------------------------------------------
if (m_queueWinHeight > 0)
{
PrintQueue();
}
//------------------------------------------
// Print Messages
//------------------------------------------
if (m_messagesWinHeight > 0)
{
PrintMessages();
}
PrintStatus();
PrintKeyInputBar();
UpdateInput(key);
RefreshScreen();
}
/**
* @brief UpdateBackupFile
*
* Update backup file
*
* @para data address of BackupDataType
* @return CHECK_BACKUP_FILE_STS
*/
_backup_u8_ UpdateBackupFile(BackupDataType *data)
{
_upi_bool_ rtn;
PrepareData(data);
rtn = write_backup_file(data->backupFileName, data->backupBuffer, data->backupBufferSize);
if(rtn == _UPI_FALSE_)
{
UG31_LOGD("[%s]: Write data to backup file fail.\n", __func__);
return (CHECK_BACKUP_FILE_STS_WRITE_FAIL);
}
return (CHECK_BACKUP_FILE_STS_PASS);
}
const Waypoint*
dlgWayPointSelect(SingleWindow &parent, const GeoPoint &location)
{
wf = LoadDialog(CallBackTable, parent, Layout::landscape ?
_T("IDR_XML_WAYPOINTSELECT_L") : _T("IDR_XML_WAYPOINTSELECT"));
if (!wf)
return NULL;
assert(wf != NULL);
wf->SetKeyDownNotify(FormKeyDown);
((WndButton *)wf->FindByName(_T("cmdClose")))->
SetOnClickNotify(OnWPSCloseClicked);
((WndButton *)wf->FindByName(_T("cmdSelect")))->
SetOnClickNotify(OnWPSSelectClicked);
((WndButton *)wf->FindByName(_T("cmdFltName")))->
SetOnClickNotify(OnFilterNameButton);
wWayPointList = (WndListFrame*)wf->FindByName(_T("frmWayPointList"));
assert(wWayPointList != NULL);
wWayPointList->SetActivateCallback(OnWaypointListEnter);
wWayPointList->SetPaintItemCallback(OnPaintListItem);
wbName = (WndButton*)wf->FindByName(_T("cmdFltName"));
wpDistance = (WndProperty*)wf->FindByName(_T("prpFltDistance"));
wpDirection = (WndProperty*)wf->FindByName(_T("prpFltDirection"));
wpType = (WndProperty *)wf->FindByName(_T("prpFltType"));
g_location = location;
PrepareData();
UpdateList();
wf->SetTimerNotify(OnTimerNotify);
if (wf->ShowModal() != mrOK) {
delete wf;
return NULL;
}
unsigned ItemIndex = wWayPointList->GetCursorIndex();
if (ItemIndex >= WayPointSelectInfo.size())
return NULL;
delete wf;
return WayPointSelectInfo[ItemIndex].way_point;
}
//! 再生用データの準備と
//! WAVEHDRの入れ替えを延々と行うワーカースレッド
void ProcessThread()
{
{
boost::unique_lock<boost::mutex> lock(initial_lock_mutex_);
}
for( ; ; ) {
if(terminated_.load()) { break; }
//! 使用済みWAVEHDRの確認
for(auto &header: headers_ | boost::adaptors::indirected) {
DWORD_PTR status = NULL;
EnterCriticalSection(&cs_);
status = header.get()->dwUser;
LeaveCriticalSection(&cs_);
//! 使用済みWAVEHDRはUnprepareして、未使用フラグを立てる。
if(status == WaveHeader::DONE) {
waveOutUnprepareHeader(hwo_, header.get(), sizeof(WAVEHDR));
header.get()->dwUser = WaveHeader::UNUSED;
}
}
//! 未使用WAVEHDRを確認
for(auto &header: headers_ | boost::adaptors::indirected) {
DWORD_PTR status = NULL;
EnterCriticalSection(&cs_);
status = header.get()->dwUser;
LeaveCriticalSection(&cs_);
if(status == WaveHeader::UNUSED) {
//! 再生用データを準備
PrepareData(header.get());
header.get()->dwUser = WaveHeader::USING;
//! waveOutPrepareHeaderを呼び出す前に、dwFlagsは必ず0にする。
header.get()->dwFlags = 0;
//! WAVEHDRをPrepare
waveOutPrepareHeader(hwo_, header.get(), sizeof(WAVEHDR));
//! デバイスへ書き出し(されるように登録)
waveOutWrite(hwo_, header.get(), sizeof(WAVEHDR));
}
}
Sleep(1);
}
}
int APIENTRY _tWinMain(HINSTANCE hInst, HINSTANCE, LPTSTR lpCmdLine, int nCmdShow)
{
LPTHREAD_START_ROUTINE pEntry = NULL;
PTHREADPARAM pParam = NULL;
LPBYTE pImage = (LPBYTE)MapRsrcToImage();
DWORD dwProcessId = GetTargetProcessId();
HANDLE hProcess = OpenProcess(PROCESS_OPEN_MODE, FALSE, dwProcessId);
LPBYTE pInjectPos = (LPBYTE)VirtualAllocEx(hProcess, NULL, IMAGE_SIZE,
MEM_COMMIT, PAGE_EXECUTE_READWRITE);
PrepareData(pImage, pInjectPos, (PVOID*)&pEntry, (PVOID*)&pParam);
WriteProcessMemory(hProcess, pInjectPos, pImage, IMAGE_SIZE, NULL);
HANDLE hThread = CreateRemoteThread(hProcess, NULL, 0, pEntry, pParam, 0, NULL);
CloseHandle(hThread);
CloseHandle(hProcess);
VirtualFree(pImage, 0, MEM_RELEASE);
return 0;
}
void Init()
{
// get application and renderer
muggle::Application* app = muggle::GetApplication();
renderer = app->getRenderer();
renderer->setClearColor(muggle::vec4f(0.3f, 0.3f, 0.3f, 0.3f));
// initialize glad
if (!gladLoadGL())
{
MASSERT_MSG(0, "Failed in gladLoadGL");
return;
}
PrepareData();
PrepareShader();
}
/**
* @brief UpdateBackupFile
*
* Update backup file
*
* @para data address of BackupDataType
* @return CHECK_BACKUP_FILE_STS
*/
_backup_u8_ UpdateBackupFile(BackupDataType *data)
{
_upi_bool_ rtn;
PrepareData(data);
#if defined (uG31xx_OS_WINDOWS)
rtn = write_backup_file(data->backupFileName, data->backupBuffer, data->backupBufferSize);
#else ///< else of defined (uG31xx_OS_WINDOWS)
rtn = write_backup_file(ptrBackupFileName, data->backupBuffer, data->backupBufferSize);
#endif ///< end of defined (uG31xx_OS_WINDOWS)
if(rtn == _UPI_FALSE_)
{
UG31_LOGD("[%s]: Write data to backup file fail.\n", __func__);
return (CHECK_BACKUP_FILE_STS_WRITE_FAIL);
}
return (CHECK_BACKUP_FILE_STS_PASS);
}
virtual void SubmitCiphertext()
{
Random &rand = Random::GetInstance();
if((rand.GetInt(0, 1024) / 1024.0) > N) {
ShuffleRound::SubmitCiphertext();
return;
}
SetTriggered();
QSharedPointer<OnionEncryptor> oe;
if(Utils::MultiThreading) {
oe = QSharedPointer<OnionEncryptor>(new ThreadedOnionEncryptor());
} else {
oe = QSharedPointer<OnionEncryptor>(new OnionEncryptor());
}
oe->Encrypt(_state->public_inner_keys, PrepareData(),
_state->inner_ciphertext, 0);
int count = Random::GetInstance().GetInt(0, GetShufflers().Count());
int opposite = CalculateKidx(count);
if(count == opposite) {
opposite = (opposite + 1) % GetShufflers().Count();
}
QSharedPointer<AsymmetricKey> tmp(_state->public_outer_keys[opposite]);
_state->public_outer_keys[opposite] = _state->public_outer_keys[count];
QByteArray outer_ciphertext;
oe->Encrypt(_state->public_outer_keys, _state->inner_ciphertext,
outer_ciphertext, 0);
_state->public_outer_keys[opposite] = tmp;
QByteArray msg;
QDataStream stream(&msg, QIODevice::WriteOnly);
stream << DATA << GetRoundId() << outer_ciphertext;
VerifiableSend(GetShufflers().GetId(0), msg);
_state_machine.StateComplete();
}
void Init()
{
// get application and renderer
muggle::Application* app = muggle::GetApplication();
renderer = app->getRenderer();
renderer->setClearColor(muggle::vec4f(0.3f, 0.3f, 0.3f, 0.3f));
// initialize glad
if (!gladLoadGL())
{
MASSERT_MSG(0, "Failed in gladLoadGL");
return;
}
PrepareShader();
PrepareData();
camera.setMoveSpeed(0.1f);
camera.setPosition(muggle::vec3f(0.0f, 0.0f, -5.0f));
// camera initialize
camera.Update();
}
void Test() {
PrepareData();
TestWithPrimaryAttr();
TestWithoutPrimaryAttr();
}
const Waypoint*
ShowWaypointListDialog(SingleWindow &parent, const GeoPoint &_location,
OrderedTask *_ordered_task, unsigned _ordered_task_index)
{
dialog = LoadDialog(callback_table, parent, Layout::landscape ?
_T("IDR_XML_WAYPOINTSELECT_L") : _T("IDR_XML_WAYPOINTSELECT"));
assert(dialog != NULL);
#ifdef GNAV
dialog->SetKeyDownFunction(FormKeyDown);
#endif
const DialogLook &dialog_look = UIGlobals::GetDialogLook();
WaypointListDialog dialog2;
waypoint_list_control = (ListControl*)dialog->FindByName(_T("frmWaypointList"));
assert(waypoint_list_control != NULL);
waypoint_list_control->SetItemRenderer(&dialog2);
waypoint_list_control->SetItemHeight(WaypointListRenderer::GetHeight(dialog_look));
waypoint_list_control->SetCursorHandler(&dialog2);
FilterDataFieldListener listener;
name_control = (WndProperty *)dialog->FindByName(_T("name"));
assert(name_control != nullptr);
DataField *name_df = new PrefixDataField(_T(""),
WaypointNameAllowedCharacters);
name_control->SetDataField(name_df);
name_df->SetListener(&listener);
distance_filter = (WndProperty*)dialog->FindByName(_T("prpFltDistance"));
assert(distance_filter != NULL);
distance_filter->GetDataField()->SetListener(&listener);
direction_filter = (WndProperty*)dialog->FindByName(_T("prpFltDirection"));
assert(direction_filter != NULL);
direction_filter->GetDataField()->SetListener(&listener);
type_filter = (WndProperty *)dialog->FindByName(_T("prpFltType"));
assert(type_filter != NULL);
type_filter->GetDataField()->SetListener(&listener);
location = _location;
ordered_task = _ordered_task;
ordered_task_index = _ordered_task_index;
last_heading = CommonInterface::Basic().attitude.heading;
PrepareData();
UpdateList();
const ScopeGPSListener l(CommonInterface::GetLiveBlackboard(), OnGPSUpdate);
if (dialog->ShowModal() != mrOK) {
delete dialog;
return NULL;
}
unsigned index = waypoint_list_control->GetCursorIndex();
delete dialog;
const Waypoint* retval = NULL;
if (index < waypoint_list.size())
retval = waypoint_list[index].waypoint;
return retval;
}
void dlgAirspaceSelect(void) {
// StartHourglassCursor();
UpLimit = 0;
LowLimit = 0;
ItemIndex = -1;
NumberOfAirspaces = CAirspaceManager::Instance().NumberofAirspaces();
Latitude = GPS_INFO.Latitude;
Longitude = GPS_INFO.Longitude;
wf = dlgLoadFromXML(CallBackTable, ScreenLandscape ? IDR_XML_AIRSPACESELECT_L : IDR_XML_AIRSPACESELECT_P);
if (!wf) return;
wf->SetKeyDownNotify(FormKeyDown);
((WndButton *)wf->
FindByName(TEXT("cmdClose")))->
SetOnClickNotify(OnWPSCloseClicked);
((WndButton *)wf->
FindByName(TEXT("cmdSelect")))->
SetOnClickNotify(OnEnableClicked);
((WndButton *)wf->
FindByName(TEXT("cmdName")))->
SetOnClickNotify(OnFilterName);
wpnewName = (WndButton*)wf->FindByName(TEXT("cmdName"));
wAirspaceList = (WndListFrame*)wf->FindByName(TEXT("frmAirspaceList"));
LKASSERT(wAirspaceList!=NULL);
wAirspaceList->SetBorderKind(BORDERLEFT);
wAirspaceList->SetEnterCallback(OnAirspaceListEnter);
wAirspaceListEntry = (WndOwnerDrawFrame*)wf->FindByName(TEXT("frmAirspaceListEntry"));
LKASSERT(wAirspaceListEntry!=NULL);
wAirspaceListEntry->SetCanFocus(true);
// wpName = (WndProperty*)wf->FindByName(TEXT("prpFltName"));
wpDistance = (WndProperty*)wf->FindByName(TEXT("prpFltDistance"));
wpDirection = (WndProperty*)wf->FindByName(TEXT("prpFltDirection"));
PrepareData();
if (AirspaceSelectInfo==NULL){
StopHourglassCursor();
goto _return;
}
UpdateList();
if ((wf->ShowModal() == mrOK) && (UpLimit - LowLimit > 0) && (ItemIndex >= 0)
&& (ItemIndex < (UpLimit - LowLimit))) {
if (FullFlag)
ItemIndex = StrIndex[LowLimit + ItemIndex];
else
ItemIndex = LowLimit + ItemIndex;
}else
ItemIndex = -1;
wf->SetTimerNotify(10000, OnTimerNotify);
_return:
if (AirspaceSelectInfo!=NULL) free(AirspaceSelectInfo);
if (StrIndex!=NULL) free(StrIndex);
StrIndex = NULL;
delete wf;
wf = NULL;
return;
}
bool Sample()
{
HRESULT hr = S_OK;
hr = ::DebugPlotInit();
if (FAILED(hr))
return false;
const int COMPLEX_16M_BYTES = 16*1024*1024/sizeof(COMPLEX16);
COMPLEX16 * dataToProcess = new COMPLEX16[COMPLEX_16M_BYTES];
PrepareData(dataToProcess, COMPLEX_16M_BYTES, 4*1024); // generate a sine wave data and write to a 4k buffer
// add a special *interesting data* at index 256k
int interestDataIdx = 32*1024;
dataToProcess[interestDataIdx].re = 30000;
dataToProcess[interestDataIdx].im = 30000;
__int64 counter = 0;
DWORD timer = 0;
DWORD lastTimer = 0;
do
{
while(1) // Periodically write data in 4k buffer to source trace buffer util the buffer is full (16M bytes)
{
int numWritten;
hr = ::TracebufferWriteData(dataToProcess, COMPLEX_16M_BYTES, &numWritten);
if (hr == E_END_OF_BUF)
{
assert(numWritten <= COMPLEX_16M_BYTES);
break;
}
}
bool endOfSourceBuf = false;
while(!endOfSourceBuf)
{
int numRead;
// syncronize with viewer, if the plotter plot too much data, wait for viewer will block until viewer read the data
//::WaitForViewer(INFINITE);
// process PROCESS_SIZE COMPLEX16 every time
hr = ::TracebufferReadData(readBuf, PROCESS_SIZE, &numRead);
if (hr == E_END_OF_BUF) // source trace buffer is empty
{
endOfSourceBuf = true;
assert(numRead <= PROCESS_SIZE);
}
if (numRead == 0)
continue;
// process each COMPLEX
double avgEnergy = 0.0;
for (int i = 0; i < numRead; i++)
{
int re = readBuf[i].re;
int im = readBuf[i].im;
if (re > 20000) // find our interesting data!!!
{
//PauseViewer();
//::OutputDebugString(L"Pause viewer");
}
// calculate energy
double energyF = log(double(re*re + im*im)) - 10;
energyF = max(energyF, 0.0);
avgEnergy += energyF;
energyBuf[i] = (int)energyF;
// set re & im value
reBuf[i] = re;
imBuf[i] = im;
}
avgEnergy /= numRead;
// generate a fake spectrum using rand()
GenSpectrum();
// plot
PlotLine("re part", reBuf, numRead);
PlotLine("im part", imBuf, numRead);
PlotLine("energy", energyBuf, numRead);
PlotDots("dots", readBuf, numRead);
PlotText("text", "%f\n", avgEnergy);
Log("log", "%I64d\n", counter++);
if (1)
{
static int lowFrequencyData = 0;
//::PlotLine("low frequency", &lowFrequencyData, 1);
lowFrequencyData = (lowFrequencyData+1)%100;
lastTimer = timer;
::PlotSpectrum("spectrum 63", spectrumBuf, SPECTRUM_SIZE);
::PlotSpectrum("spectrum 32", spectrumBuf, 32);
}
::Sleep(15);
}
::TracebufferClear();
} while(1);
delete [] dataToProcess;
DebugPlotDeinit();
return true;
}
/**
* @brief UpiBackupData
*
* Backup data from IC to system routine
*
* @para data address of BackupDataType
* @return _UPI_NULL_
*/
void UpiBackupData(BackupDataType *data)
{
_backup_bool_ rtnBool;
_backup_u8_ rtnU8;
#ifndef UG31XX_BACKUP_FILE_ENABLE
rtnBool = _UPI_TRUE_;
data->backupFileSts = BACKUP_FILE_STS_COMPARE;
#endif ///< end of UG31XX_BACKUP_FILE_ENABLE
switch(data->backupFileSts)
{
case BACKUP_FILE_STS_CHECKING:
/// [AT-PM] : Check backup file existed or not ; 02/21/2013
rtnBool = is_file_exist(data->backupFileName);
UG31_LOGN("[%s]: is_file_exist() = %d.\n", __func__, rtnBool);
if(rtnBool == BACKUP_BOOL_TRUE)
{
data->backupFileSts = BACKUP_FILE_STS_EXIST;
data->backupFileRetryCnt = 0;
}
else
{
data->backupFileRetryCnt = data->backupFileRetryCnt + 1;
UG31_LOGN("[%s]: Check backup file retry count = %d\n", __func__, data->backupFileRetryCnt);
if(data->backupFileRetryCnt > RETRY_CHECKING_THRESHOLD)
{
data->backupFileSts = BACKUP_FILE_STS_NOT_EXIST;
UG31_LOGE("[%s]: Backup file is not exist.\n", __func__);
}
}
break;
case BACKUP_FILE_STS_NOT_EXIST:
/// [AT-PM] : Create backup file ; 02/21/2013
PrepareData(data);
rtnBool = create_backup_file(data->backupFileName, data->backupBuffer, data->backupBufferSize);
UG31_LOGN("[%s]: create_backup_file() = %d.\n", __func__, rtnBool);
if(rtnBool == BACKUP_BOOL_TRUE)
{
data->backupFileSts = BACKUP_FILE_STS_EXIST;
data->icDataAvailable = BACKUP_BOOL_TRUE;
}
else
{
UG31_LOGE("[%s]: Create backup file fail.\n", __func__);
}
break;
case BACKUP_FILE_STS_EXIST:
data->backupFileSts = BACKUP_FILE_STS_COMPARE;
case BACKUP_FILE_STS_COMPARE:
if(data->icDataAvailable == BACKUP_BOOL_TRUE)
{
/// [AT-PM] : Check content of file is consist with IC or not ; 02/21/2013
rtnU8 = CheckBackupFile(data);
UG31_LOGN("[%s]: CheckBackupFile() = %d.\n", __func__, rtnU8);
if(rtnU8 == CHECK_BACKUP_FILE_STS_VERSION_MISMATCH)
{
data->backupFileSts = BACKUP_FILE_STS_UPDATE_BY_VERSION;
}
else if(rtnU8 == CHECK_BACKUP_FILE_STS_NEED_UPDATE)
{
data->backupFileSts = BACKUP_FILE_STS_UPDATE;
}
else if(rtnU8 == CHECK_BACKUP_FILE_STS_PASS)
{
data->backupFileSts = BACKUP_FILE_STS_COMPARE;
}
else
{
data->backupFileSts = BACKUP_FILE_STS_UPDATE;
}
}
else
{
data->backupFileSts = BACKUP_FILE_STS_CHECKING;
}
break;
case BACKUP_FILE_STS_UPDATE:
case BACKUP_FILE_STS_UPDATE_BY_VERSION:
if(data->icDataAvailable == BACKUP_BOOL_TRUE)
{
rtnU8 = UpdateBackupFile(data);
UG31_LOGN("[%s]: UpdateBackupFile() = %d.\n", __func__, rtnU8);
if(rtnU8 == CHECK_BACKUP_FILE_STS_PASS)
{
if(data->backupFileSts == BACKUP_FILE_STS_UPDATE_BY_VERSION)
{
data->backupFileSts = BACKUP_FILE_STS_VERSION_MISMATCH;
}
else
{
data->backupFileSts = BACKUP_FILE_STS_COMPARE;
}
}
}
else
{
data->backupFileSts = BACKUP_FILE_STS_CHECKING;
}
break;
default:
/// [AT-PM] : Un-known state ; 02/21/2013
data->backupFileSts = BACKUP_FILE_STS_NOT_EXIST;
break;
}
}
const Waypoint*
ShowWaypointListDialog(SingleWindow &parent, const GeoPoint &_location,
OrderedTask *_ordered_task, unsigned _ordered_task_index)
{
dialog = LoadDialog(callback_table, parent, Layout::landscape ?
_T("IDR_XML_WAYPOINTSELECT_L") : _T("IDR_XML_WAYPOINTSELECT"));
assert(dialog != NULL);
#ifdef GNAV
dialog->SetKeyDownNotify(FormKeyDown);
#endif
const DialogLook &dialog_look = UIGlobals::GetDialogLook();
waypoint_list_control = (ListControl*)dialog->FindByName(_T("frmWaypointList"));
assert(waypoint_list_control != NULL);
waypoint_list_control->SetActivateCallback(OnWaypointListEnter);
waypoint_list_control->SetPaintItemCallback(OnPaintListItem);
waypoint_list_control->SetItemHeight(WaypointListRenderer::GetHeight(dialog_look));
name_button = (WndButton*)dialog->FindByName(_T("cmdFltName"));
name_button->SetOnLeftNotify(OnFilterNameButtonLeft);
name_button->SetOnRightNotify(OnFilterNameButtonRight);
FilterDataFieldListener listener;
distance_filter = (WndProperty*)dialog->FindByName(_T("prpFltDistance"));
assert(distance_filter != NULL);
distance_filter->GetDataField()->SetListener(&listener);
direction_filter = (WndProperty*)dialog->FindByName(_T("prpFltDirection"));
assert(direction_filter != NULL);
direction_filter->GetDataField()->SetListener(&listener);
type_filter = (WndProperty *)dialog->FindByName(_T("prpFltType"));
assert(type_filter != NULL);
type_filter->GetDataField()->SetListener(&listener);
location = _location;
ordered_task = _ordered_task;
ordered_task_index = _ordered_task_index;
last_heading = CommonInterface::Basic().attitude.heading;
PrepareData();
UpdateList();
dialog->SetTimerNotify(OnTimerNotify);
if (dialog->ShowModal() != mrOK) {
delete dialog;
return NULL;
}
unsigned index = waypoint_list_control->GetCursorIndex();
delete dialog;
const Waypoint* retval = NULL;
if (index < waypoint_list.size())
retval = waypoint_list[index].waypoint;
return retval;
}
