static KineticStatus KineticClient_CreateOperation(
KineticOperation** operation,
KineticSessionHandle handle)
{
if (handle == KINETIC_HANDLE_INVALID) {
LOG0("Specified session has invalid handle value");
return KINETIC_STATUS_SESSION_EMPTY;
}
KineticConnection* connection = KineticConnection_FromHandle(handle);
if (connection == NULL) {
LOG0("Specified session is not associated with a connection");
return KINETIC_STATUS_SESSION_INVALID;
}
LOGF1("\n"
"--------------------------------------------------\n"
"Building new operation on connection @ 0x%llX", connection);
*operation = KineticAllocator_NewOperation(connection);
if (*operation == NULL) {
return KINETIC_STATUS_MEMORY_ERROR;
}
if ((*operation)->request == NULL) {
return KINETIC_STATUS_NO_PDUS_AVAVILABLE;
}
return KINETIC_STATUS_SUCCESS;
}
void CMLauncherAppUi::PlaylistTransferCompleteL()
{
LOG(ELogGeneral,1,"PlaylistTransferCompleteL: start");
iActiveViews&=~EFiletransferViewActive;
if(iCurrentView==iFiletransferView)
{
//we need to switch to a diferent vierw, e.g. list view
LOG0("Activating list view");
SwitchViewL(iListView);
LOG0("List view activated");
}/*
else
{
//no need to switch view, but we must take care of the navi menu (may need replacing with exit)
ChangeExitWithNaviL(-1);
};*/
Clean(ETrue);//this function performs asynchronously
//update the view
if(iDirection==EDirectionReceiving)
UpdateView();
LOG(ELogGeneral,-1,"PlaylistTransferCompleteL: end");
};
/** @brief Log a message from the Python.
*
* In AQUAgpusph the Python stdout and stderr are redirected to this function,
* such that:
* - stdout messages will be logged with level 0
* - stderr messages will be logged with level 3
* @param self Module.
* @param args Positional arguments.
* @param keywds Keyword arguments.
* @return Computed value, NULL if errors have been detected.
*/
static PyObject* logMsg(PyObject *self, PyObject *args, PyObject *keywds)
{
int level;
const char* msg;
static char *kwlist[] = {"log_level", "message", NULL};
if (!PyArg_ParseTupleAndKeywords(args, keywds, "is", kwlist,
&level, &msg)){
return NULL;
}
switch(level) {
case 0:
LOG0(Aqua::L_DEBUG, msg); break;
case 1:
LOG0(Aqua::L_INFO, msg); break;
case 2:
LOG0(Aqua::L_WARNING, msg); break;
case 3:
LOG0(Aqua::L_ERROR, msg); break;
}
Py_RETURN_NONE;
}
void KineticController_HandleUnexpectedResponse(void *msg,
int64_t seq_id,
void *bus_udata,
void *socket_udata)
{
KineticResponse * response = msg;
KineticSession* session = socket_udata;
bool connetionInfoReceived = false;
char const * statusTag = "[PDU RX STATUS]";
char const * unexpectedTag = "[PDU RX UNEXPECTED]";
char const * logTag = unexpectedTag;
int logAtLevel, protoLogAtLevel;
(void)bus_udata;
// Handle unsolicited status PDUs
if (response->proto->authtype == COM__SEAGATE__KINETIC__PROTO__MESSAGE__AUTH_TYPE__UNSOLICITEDSTATUS) {
int64_t connectionID = KineticResponse_GetConnectionID(response);
if (connectionID != 0)
{
// Store connectionID from unsolicited status message in the session for future requests
KineticSession_SetConnectionID(session, connectionID);
LOGF2("Extracted connection ID from unsolicited status PDU (id=%lld)", connectionID);
connetionInfoReceived = true;
logTag = statusTag;
logAtLevel = 2;
protoLogAtLevel = 3;
}
else {
LOG0("WARNING: Unsolicited status received. Connection being terminated by remote!");
logTag = statusTag;
logAtLevel = 0;
protoLogAtLevel = 0;
KineticStatus status = KineticResponse_GetStatus(response);
KineticSession_SetTerminationStatus(session, status);
}
}
else {
LOG0("WARNING: Received unexpected response!");
logTag = unexpectedTag;
logAtLevel = 0;
protoLogAtLevel = 0;
}
KineticLogger_LogPrintf(logAtLevel, "%s pdu: %p, session: %p, bus: %p, "
"fd: %6d, seq: %8lld, protoLen: %8u, valueLen: %8u",
logTag,
(void*)response, (void*)session,
(void*)session->messageBus,
session->socket, (long long)seq_id,
KineticResponse_GetProtobufLength(response),
KineticResponse_GetValueLength(response));
KineticLogger_LogProtobuf(protoLogAtLevel, response->proto);
KineticAllocator_FreeKineticResponse(response);
if (connetionInfoReceived) {
KineticResourceWaiter_SetAvailable(&session->connectionReady);
}
}
KineticStatus KineticSession_Create(KineticSession * const session, KineticClient * const client)
{
if (session == NULL) {
LOG0("Session is NULL");
return KINETIC_STATUS_SESSION_EMPTY;
}
if (client == NULL) {
LOG0("Client is NULL");
return KINETIC_STATUS_SESSION_EMPTY;
}
session->connected = false;
session->socket = KINETIC_SOCKET_INVALID;
// initialize session send mutex
if (pthread_mutex_init(&session->sendMutex, NULL) != 0) {
LOG0("Failed initializing session send mutex!");
return KINETIC_STATUS_MEMORY_ERROR;
}
session->outstandingOperations =
KineticCountingSemaphore_Create(KINETIC_MAX_OUTSTANDING_OPERATIONS_PER_SESSION);
if (session->outstandingOperations == NULL) {
LOG0("Failed creating session counting semaphore!");
return KINETIC_STATUS_MEMORY_ERROR;
}
return KINETIC_STATUS_SUCCESS;
}
bool IODicom<T>::ReadMetaData(PGCore::BaseDataObject *oMetaDataObject, const IOParams &iParams)
{
const std::vector<std::string>& iPaths = iParams.Source();
if (iPaths.empty())
{
LOG0("IO/IODicom::ReadMetaData: Invalid input filename vector.");
return false;
}
const std::string &iFileName = iPaths[0];
if (iFileName.empty())
{
LOG0("IO/IODicom::ReadMetaData: Invalid input filename.");
return false;
}
//this is where to read the image in
PGCore::MetaData<T> *oMetaData = (static_cast<PGCore::MetaData< T > *>(oMetaDataObject));
if (!oMetaData)
{
LOG0("IO/IOBase::ReadMetaData: Invalid output container for metadata.");
return false;
}
return GetAttributes(*oMetaData, iFileName);
}
SQLCode::SQLCode()
{
LOG0(SourceInfo, DebugUtil::DebugSQL,"Begin build the Hash table...");
m_pSqlFileHelper = new SQLFileHelper();
LOG0(SourceInfo, DebugUtil::DebugSQL,"End build the Hash table...");
}
KineticStatus KineticClient_DestroySession(KineticSession* const session)
{
if (session == NULL) {
LOG0("KineticSession is NULL!");
return KINETIC_STATUS_SESSION_INVALID;
}
KineticStatus status = KineticSession_Disconnect(session);
if (status != KINETIC_STATUS_SUCCESS) {LOG0("Disconnection failed!");}
KineticSession_Destroy(session);
return status;
}
KineticStatus KineticSession_Connect(KineticSession * const session)
{
if (session == NULL) {
return KINETIC_STATUS_SESSION_EMPTY;
}
// Establish the connection
KINETIC_ASSERT(strlen(session->config.host) > 0);
session->socket = KineticSocket_Connect(
session->config.host, session->config.port);
if (session->socket == KINETIC_SOCKET_DESCRIPTOR_INVALID) {
LOG0("Session connection failed!");
session->socket = KINETIC_SOCKET_DESCRIPTOR_INVALID;
session->connected = false;
return KINETIC_STATUS_CONNECTION_ERROR;
}
session->connected = true;
bus_socket_t socket_type = session->config.useSsl ? BUS_SOCKET_SSL : BUS_SOCKET_PLAIN;
session->si = calloc(1, sizeof(socket_info) + 2 * PDU_PROTO_MAX_LEN);
if (session->si == NULL) { return KINETIC_STATUS_MEMORY_ERROR; }
bool success = Bus_RegisterSocket(session->messageBus, socket_type, session->socket, session);
if (!success) {
LOG0("Failed registering connection with client!");
goto connection_error_cleanup;
}
// Wait for initial unsolicited status to be received in order to obtain connection ID
success = KineticResourceWaiter_WaitTilAvailable(&session->connectionReady, KINETIC_CONNECTION_TIMEOUT_SECS);
if (!success) {
LOG0("Timed out waiting for connection ID from device!");
goto connection_error_cleanup;
}
LOGF1("Received connection ID %lld for session %p",
(long long)KineticSession_GetConnectionID(session), (void*)session);
return KINETIC_STATUS_SUCCESS;
connection_error_cleanup:
if (session->si != NULL) {
free(session->si);
session->si = NULL;
}
if (session->socket != KINETIC_SOCKET_DESCRIPTOR_INVALID) {
KineticSocket_Close(session->socket);
session->socket = KINETIC_SOCKET_DESCRIPTOR_INVALID;
}
session->connected = false;
return KINETIC_STATUS_CONNECTION_ERROR;
}
void gInitStructuredExceptionHandler()
{
// TODO LPP: Should we use a thread local variable to ensure we only call
// _set_se_translator() once per thread? Does _set_se_translator() already do this?
static bool shouldSetSeTranslator = RunParams::getInstance().isSet(RPARAM_DEBUGLOGSTACKTRACE);
if (shouldSetSeTranslator)
{
LOG0(SourceInfo, DebugUtil::DebugDebug, "gInitStructuredExceptionHandler(): calling _set_se_translator()");
_set_se_translator( translator_func );
}
else
{
LOG0(SourceInfo, DebugUtil::DebugDebug, "gInitStructuredExceptionHandler(): NOT calling _set_se_translator()");
}
}
JERRCODE CJPEGDecoder::ProcessRestart(int thread_id)
{
IppStatus status;
#ifdef _OPENMP
status = ippiDecodeHuffmanStateInit_JPEG_8u(m_state_t[thread_id]);
#else
status = ippiDecodeHuffmanStateInit_JPEG_8u(m_state);
#endif
if(ippStsNoErr != status)
{
LOG0("Error: ippiDecodeHuffmanStateInit_JPEG_8u() failed");
return JPEG_ERR_INTERNAL;
}
for(int n = 0; n < m_jpeg_ncomp; n++)
{
m_ccomp[n].m_lastDC = 0;
}
#ifdef _OPENMP
if(m_threading_mode == JT_RSTI)
{
for(int n = 0; n < m_jpeg_ncomp; n++)
{
m_lastDC[thread_id][n] = 0;
}
}
#endif
return JPEG_OK;
} // CJPEGDecoder::ProcessRestart()
BOOL CAuthenticationPg::OnInitDialog() {
LOG0(3, "CAuthenticationPg::OnInitDialog()");
CPropertyPage::OnInitDialog();
return TRUE;
}
//---------------------------------------------------------------------------
//
// セーブ
//
//---------------------------------------------------------------------------
int FASTCALL CRTC::Save(Fileio *fio, int ver)
{
size_t sz;
ASSERT(this);
ASSERT(fio);
LOG0(Log::Normal, "セーブ");
// サイズをセーブ
sz = sizeof(crtc_t);
if (!fio->Write(&sz, sizeof(sz))) {
return FALSE;
}
// 実体をセーブ
if (!fio->Write(&crtc, (int)sz)) {
return FALSE;
}
// イベントをセーブ
if (!event.Save(fio, ver)) {
return FALSE;
}
return TRUE;
}
bool ErosionKernel<T, U>::Initialize_()
{
if (m_radius<=0.0f)
{
return false;
}
// fill up the buffer here
int i=0;
// fill circle
/*for (i=0;i<(m_dimension);i++)
{
SetValue(0, i, 1);
}*/
bool res = drawCircle(m_dimension/2, m_dimension/2, m_radius, m_buffer);
if (!res) return false;
#ifdef _DEBUG
if (0)
{
LOG1("The filter coefficients are (radius: %d):", m_radius);
for(int j=0;j<(m_dimension);j++)
{
LOG0("\n");
for(i=0;i<(m_dimension);i++)
LOG3("Kernel[%d][%d] = %f", j, i, (double)GetValue(j, i));
}
}
#endif
return true;
}
void CPropCachingPg::UpdateControls() {
LOG0(3, "CPropCachingPg::UpdateControls()");
if (m_ctlSpecificCaching.GetCheck() == BST_CHECKED) {
m_ctlStoreImages.EnableWindow();
m_ctlCacheOnlineContent.EnableWindow();
}
else {
m_ctlStoreImages.EnableWindow(FALSE);
m_ctlCacheOnlineContent.EnableWindow(FALSE);
}
if (m_ctlCacheEnclosures.GetCheck() == BST_CHECKED) {
m_ctlEnclosureLimit.EnableWindow();
m_ctlLargerLbl.EnableWindow();
m_ctlEnclosureLimitSpin.EnableWindow();
m_ctlMB.EnableWindow();
m_ctlMBLbl.EnableWindow();
}
else {
m_ctlEnclosureLimit.EnableWindow(FALSE);
m_ctlLargerLbl.EnableWindow(FALSE);
m_ctlEnclosureLimitSpin.EnableWindow(FALSE);
m_ctlMB.EnableWindow(FALSE);
m_ctlMBLbl.EnableWindow(FALSE);
}
}
// 0: false, not in async mode
// 1: true
int AsyncProcess::NotifyError(const char *iMsg/*=0*/)
{
if (!m_pProcess) return false;
if (!m_pProcess->GetAsyncEnabled()) return false;
//if (!ioAsyncLoadMT) return 0;
EnterCriticalSection(&m_csMT);
m_threadsRemaining--;
LeaveCriticalSection(&m_csMT);
if (m_threadsRemaining>0)
{
LOG1("%d threads remaining. One of them reported error. Killing all..", m_threadsRemaining);
} else
{
LOG0("A thread reported error. Killing all..");
}
for (int i=0; i<m_numThreadsMT; i++)
{
//if (m_thread[i].IsAlive())
{
m_thread[i].CloseThread();
LOG1("Closed thread with threadHandle [%d]", m_hThreadMT[i]);
}
}
return 1;
}
BOOL CRewriteRuleDlg::OnInitDialog() {
LOG0(3, "CRewriteRuleDlg::OnInitDialog()");
CCeDialog::OnInitDialog();
return TRUE; // return TRUE unless you set the focus to a control
// EXCEPTION: OCX Property Pages should return FALSE
}
CRewriteRuleDlg::CRewriteRuleDlg(CWnd* pParent /*=NULL*/)
: CCeDialog(CRewriteRuleDlg::IDD)
{
LOG0(5, "CRewriteRuleDlg::CRewriteRuleDlg()");
//{{AFX_DATA_INIT(CRewriteRuleDlg)
//}}AFX_DATA_INIT
SetMenu(IDR_DONE);
}
bool ImageEdgeDetectionBase<T, U>::Execute() {
if (!m_iDataObject) {
LOG0("ImageEdgeDetectionBase: Error: no input");
return false;
}
// also check base image types here
// get first image
PGCore::Image<T> *inImage = (static_cast<PGCore::Image < T > *>(m_iDataObject));
if (!inImage) {
LOG0("ImageEdgeDetectionBase: Error: failure to fetch input image");
return false;
}
long iRows=0, iColumns=0;
inImage->GetDimensions(iRows, iColumns);
if (iRows*iColumns <=0) {
LOG0("ImageEdgeDetectionBase: Error: invalid image size");
return false;
}
const T* inBuf = inImage->GetBuffer();
if (!inBuf)
{
LOG0("ImageEdgeDetectionBase: Error: invalid image");
return false;
}
if (m_oImageObject == NULL)
m_oImageObject = new PGCore::Image<U>(iRows, iColumns);
U* outBuf = m_oImageObject->GetBuffer();
if (!outBuf)
{
LOG0("ImageEdgeDetectionBase: Error: invalid out image");
return false;
}
bool rv = detectEdges(m_sigma, m_loTh, m_hiTh, inImage, m_oImageObject);
m_oDataObject = (static_cast<PGCore::BaseDataObject *>(m_oImageObject));
return rv;
}
CString MakeOfflineUrl(const CString &strFileName) {
LOG0(5, "MakeOfflineUrl()");
CString strOfflineUrl;
strOfflineUrl.Format(_T("file://localhost%s"), strFileName);
strOfflineUrl.Replace('\\', '/');
return strOfflineUrl;
}
void tearDown(void)
{
if (FileDesc >= 0) {
LOG0("Shutting down socket...");
KineticSocket_Close(FileDesc);
FileDesc = 0;
}
KineticLogger_Close();
}
CMLauncherAppUi::~CMLauncherAppUi()
{
LOG(ELogGeneral,1,"CMLauncherAppUi::~CMLauncherAppUi++");
if(iIdle)
{
LOG0("Canceling iIdle");
iIdle->Cancel();
LOG0("Deleting iIdle");
delete iIdle;
};
LOG0("iIdle is deleted. Deleting iDlg*");
delete iDlgMsg;
delete iDlgNote;
delete iDlgNoteString;
LOG0("Deleting iDocHandler (should be NULL already)");
delete iDocHandler;
LOG(ELogGeneral,-1,"CMLauncherAppUi::~CMLauncherAppUi--");
};
Image<T> &Image<T>::operator-=(const Image<T> &iImageObject) {
long iRows, iColumns;
iImageObject.GetDimensions(iRows, iColumns);
if (iRows!=m_rows || iColumns!=m_columns) {
return *this;
}
PGCore::PixelBase<T> tPixel;
T rangeMin = tPixel.GetMaxValue(), rangeMax = tPixel.GetMinValue();
T irangeMin = tPixel.GetMaxValue(), irangeMax = tPixel.GetMinValue();
GetDataRange(&rangeMin, &rangeMax);
if (!iImageObject.GetDataRange(&irangeMin, &irangeMax))
{
//iImageObject.Update();
//if (!iImageObject.GetDataRange(&irangeMin, &irangeMax))
{
assert(0 && "Failed to compute range");
LOG0("WARNING: Failed to compute range");
return *this;
}
}
rangeMin = Functional<T>::Min(rangeMin, irangeMin);//rangeMin<irangeMin ? rangeMin : irangeMin;
rangeMax = Functional<T>::Max(rangeMax, irangeMax);//rangeMax>irangeMax ? rangeMax : irangeMax;
T rangeTotal = (T)(rangeMax - rangeMin);
if (rangeTotal<=T(0)) return *this;
long double rangeOrg = (double)(255.0f);//tPixel.GetMaxValue() - tPixel.GetMinValue());
T* iBuffer = (T*)iImageObject.GetBuffer();
if (!iBuffer) return *this;
long iSize = 0;
while (iSize< m_rows*m_columns)
{
T signedDiffValue = *(m_buffer+iSize) - *(iBuffer+iSize);
//signedDiffValue += (double)rangeTotal;
//signedDiffValue = signedDiffValue/(2.0f*rangeTotal);
//signedDiffValue *= rangeOrg;
//T diffValue = (T)Functional<T>::Abs(signedDiffValue);
if (signedDiffValue<T(0)) signedDiffValue = -signedDiffValue;
*(m_buffer+iSize) = signedDiffValue;
iSize++;
}
//Update();
m_rangeUpToDate = false;
return *this;
}
KineticStatus KineticClient_Disconnect(KineticSessionHandle* const handle)
{
if (*handle == KINETIC_HANDLE_INVALID) {
LOG0("Invalid KineticSessionHandle specified!");
return KINETIC_STATUS_SESSION_INVALID;
}
KineticConnection* connection = KineticConnection_FromHandle(*handle);
if (connection == NULL) {
LOG0("Failed getting valid connection from handle!");
return KINETIC_STATUS_CONNECTION_ERROR;
}
// Disconnect
KineticStatus status = KineticConnection_Disconnect(connection);
if (status != KINETIC_STATUS_SUCCESS) {LOG0("Disconnection failed!");}
KineticConnection_FreeConnection(handle);
*handle = KINETIC_HANDLE_INVALID;
return status;
}
/* -------------------------------------------------------------------------- */
void cutils_test_appsupport_path_Create()
{
LOG0("---- cutils_test_appsupport_path_Create --------------------------");
CFStringRef appSuppLocal = appsupport_path_Create(kLocalDomain);
CFShow(appSuppLocal);
//LOG_CF("app support folder (local)", appSuppLocal);
assert(CFStringCompare(appSuppLocal,
CFSTR("/Library/Application Support"), 0) == 0);
}
BOOL CPropCachingPg::OnInitDialog() {
LOG0(3, "CPropCachingPg::OnInitDialog()");
CPropertyPage::OnInitDialog();
m_ctlEnclosureLimitSpin.SendMessage(CCM_SETVERSION, COMCTL32_VERSION);
m_ctlEnclosureLimitSpin.SetRange(0, 30000);
UpdateControls();
return TRUE;
}
void CGameApp::Run(int argc,char *argv[])
{
LOG0("TK Game Started\n------------------\n");
int extra = 0;
for(int a=1; a<argc; a++)
{
int b=0;
char *tmp=strdup(argv[a]);
strupr(tmp);
if((tmp[0]=='-')||(tmp[0]=='/'))
switch(tmp[1])
{
case '1': extra |= SDL_HWACCEL;
break;
case '2': extra |= SDL_HWSURFACE;
break;
case 'W':iOptions->Data().iFullScreen=0;
break;
case 'L':b=atoi(argv[++a]);
if(b>0) iDebugStartLevel=b - 1;
break;
default:
error("Unknown commandline parameter!?!\n");
break;
}
free(tmp);
}
iGGI->SetExtraFlags( extra );
iGGI->SetMenuMode();
iEventHandler->ResetStack();
LOG0("Starting game loop\n");
Loop();
}
void CMLauncherAppUi::StopwatchDoneL()
{
LOG(ELogGeneral,1,"StopwatchDone: start");
iActiveViews&=~EStopwatchViewActive;
if(iCurrentView==iStopwatchView)
{
//we need to switch to a diferent vierw, e.g. list view
LOG0("Activating list view");
SwitchViewL(iListView);
LOG0("List view activated");
}/*
else
{
//no need to switch view, but we must take care of the navi menu (may need replacing with exit)
ChangeExitWithNaviL(-1);
};*/
//do cleaning here
LOG(ELogGeneral,-1,"StopwatchDone: end");
};
void CMLauncherAppUi::CloseMusicPlayerViewL()
{
LOG(ELogGeneral,1,"CloseMusicPlayerViewL: start");
iActiveViews&=~EMusicPlayerViewActive;
if(iMusicPlayerView)
iMusicPlayerView->ClearPlaylist();
if(iCurrentView==iMusicPlayerView)
{
//we need to switch to a different view, e.g. list view
LOG0("Activating list view");
SwitchViewL(iListView);
LOG0("List view activated");
}/*
else
{
//no need to switch view, but we must take care of the navi menu (may need replacing with exit)
ChangeExitWithNaviL(-1);
};*/
LOG(ELogGeneral,-1,"CloseMusicPlayerViewL: end");
};
void CMusicPlayerTelObs::RunL()
{
LOG0("CMusicPlayerTelObs::RunL line status=%d",iLineStatus.iStatus);
if(iStatus==KErrNone)
{
if(iLineStatus.iStatus == CTelephony::EStatusIdle)
{
iMusicPlayerView.ResumePlayback();
LOG0("CMusicPlayerTelObs::RunL: playback resumed (line status: idle)");
}
else if(iMusicPlayerView.iTrack)
{
//we have an ongoing call AND we are in playing state
iMusicPlayerView.iTrack->iFlags|=CTrack::EKilledByTelephony;
LOG0("CMusicPlayerTelObs::RunL: (line status changed: %d)",iLineStatus.iStatus);
}
}
/* Request the next notification */
iTelephony->NotifyChange( iStatus,CTelephony::EVoiceLineStatusChange,iLineStatusPckg );
SetActive();
}
