/*
* Class: hdf_hdf5lib_H5
* Method: H5get_libversion
* Signature: ([I)I
*/
JNIEXPORT jint JNICALL
Java_hdf_hdf5lib_H5_H5get_1libversion
(JNIEnv *env, jclass clss, jintArray libversion)
{
unsigned *theArray = NULL;
herr_t status = -1;
jboolean isCopy;
if (libversion == NULL) {
h5nullArgument(env, "H5get_version: libversion is NULL");
} /* end if */
else {
theArray = (unsigned*)ENVPTR->GetIntArrayElements(ENVPAR libversion, &isCopy);
if (theArray == NULL) {
h5JNIFatalError( env, "H5get_libversion: input not pinned");
} /* end if */
else {
status = H5get_libversion(&(theArray[0]), &(theArray[1]), &(theArray[2]));
if (status < 0) {
ENVPTR->ReleaseIntArrayElements(ENVPAR libversion, (jint*)theArray, JNI_ABORT);
h5libraryError(env);
} /* end if */
ENVPTR->ReleaseIntArrayElements(ENVPAR libversion, (jint*)theArray,0);
} /* end else */
} /* end else */
return (jint)status;
} /* end Java_hdf_hdf5lib_H5_H5get_1libversion */
//--------------------------------------------------------------------------
// Function: H5Library::getLibVersion (static)
///\brief Returns the HDF library release number.
///\param majnum - OUT: Major version of the library
///\param minnum - OUT: Minor version of the library
///\param relnum - OUT: Release number of the library
///\exception H5::LibraryIException
// Programmer Binh-Minh Ribler - 2000
//--------------------------------------------------------------------------
void H5Library::getLibVersion(unsigned& majnum, unsigned& minnum, unsigned& relnum)
{
herr_t ret_value = H5get_libversion(&majnum, &minnum, &relnum);
if (ret_value < 0)
{
throw LibraryIException("H5Library::getLibVersion", "H5get_libversion failed");
}
}
void H5File::getFileHDF5Version(unsigned int * out) const
{
herr_t err = H5get_libversion(out, out + 1, out + 2);
if (err < 0)
{
throw H5Exception(__LINE__, __FILE__, _("Cannot retrieve file version: %s"), filename.c_str());
}
}
/*
* Print test info.
*/
void TestInfo(const char *ProgName)
{
unsigned major, minor, release;
H5get_libversion(&major, &minor, &release);
print_func("\nFor help use: %s -help\n",ProgName);
print_func("Linked with hdf5 version %u.%u release %u\n", major, minor, release);
}
/**
* @brief return the HDF5 version in use at runtime.
*
* @result description of the current HDF5 version.
*/
const char *hdf5_version(void) {
static char version[256] = {0};
#ifdef HAVE_HDF5
unsigned int majnum, minnum, relnum;
H5get_libversion(&majnum, &minnum, &relnum);
sprintf(version, "%i.%i.%i", majnum, minnum, relnum);
#else
sprintf(version, "Unknown version");
#endif
return version;
}
/*
* Determine api version.
*/
static void HDF5_SetVersion(IOR_param_t * test)
{
unsigned major, minor, release;
if (H5get_libversion(&major, &minor, &release) < 0) {
WARN("cannot get HDF5 library version");
} else {
sprintf(test->apiVersion, "%s-%u.%u.%u",
test->api, major, minor, release);
}
#ifndef H5_HAVE_PARALLEL
strcat(test->apiVersion, " (Serial)");
#else /* H5_HAVE_PARALLEL */
strcat(test->apiVersion, " (Parallel)");
#endif /* not H5_HAVE_PARALLEL */
}
/*---------------------------------------------------------------------------
* Name: h5get_libversion_c
* Purpose: Calls H5get_libversion function
* to retrieve library version info.
* Inputs:
* None
* Outputs:
* majnum - the major version of the library
* minnum - the minor version of the library
* relnum - the release version of the library
* Returns: 0 on success, -1 on failure
* Programmer: Elena Pourmal
* Tuesday, September 24, 2002
* Modifications:
*---------------------------------------------------------------------------*/
int_f
nh5get_libversion_c( int_f *majnum, int_f *minnum, int_f *relnum)
{
int ret_value = -1;
unsigned c_majnum, c_minnum, c_relnum;
if (H5get_libversion(&c_majnum, &c_minnum, &c_relnum) < 0) return ret_value;
*majnum = (int_f)c_majnum;
*minnum = (int_f)c_minnum;
*relnum = (int_f)c_relnum;
ret_value = 0;
return ret_value;
}
/*-------------------------------------------------------------------------
* Function: H5Z_filter_dynlib4
*
* Purpose: A dynlib4 filter method that adds on and subtract from
* the original value with another value. It will be built
* as a shared library. plugin.c test will load and use
* this filter library. Designed to call a HDF function.
*
* Return: Success: Data chunk size
*
* Failure: 0
*
*-------------------------------------------------------------------------
*/
static size_t
H5Z_filter_dynlib4(unsigned int flags, size_t cd_nelmts,
const unsigned int *cd_values, size_t nbytes,
size_t *buf_size, void **buf)
{
int *int_ptr = (int *)*buf; /* Pointer to the data values */
size_t buf_left = *buf_size; /* Amount of data buffer left to process */
int add_on = 0;
unsigned ver_info[3];
/* Check for the library version */
if(H5get_libversion(&ver_info[0], &ver_info[1], &ver_info[2]) < 0) {
PUSH_ERR("dynlib4", H5E_CALLBACK, "H5get_libversion");
return(0);
}
/* Check for the correct number of parameters */
if(cd_nelmts == 0)
return(0);
/* Check that permanent parameters are set correctly */
if(cd_values[0] > 9)
return(0);
if(ver_info[0] != cd_values[1] || ver_info[1] != cd_values[2]) {
PUSH_ERR("dynlib4", H5E_CALLBACK, "H5get_libversion does not match");
return(0);
}
add_on = (int)cd_values[0];
if(flags & H5Z_FLAG_REVERSE) { /*read*/
/* Substract the "add on" value to all the data values */
while(buf_left > 0) {
*int_ptr++ -= add_on;
buf_left -= sizeof(int);
} /* end while */
} /* end if */
else { /*write*/
/* Add the "add on" value to all the data values */
while(buf_left > 0) {
*int_ptr++ += add_on;
buf_left -= sizeof(int);
} /* end while */
} /* end else */
return nbytes;
} /* end H5Z_filter_dynlib4() */
/*
* Determine api version.
*/
static char * HDF5_GetVersion()
{
static char version[1024] = {0};
if(version[0]) return version;
unsigned major, minor, release;
if (H5get_libversion(&major, &minor, &release) < 0) {
WARN("cannot get HDF5 library version");
} else {
sprintf(version, "%u.%u.%u", major, minor, release);
}
#ifndef H5_HAVE_PARALLEL
strcat(version, " (Serial)");
#else /* H5_HAVE_PARALLEL */
strcat(version, " (Parallel)");
#endif /* not H5_HAVE_PARALLEL */
return version;
}
std::string H5File::toString(const unsigned int indentLevel) const
{
herr_t err;
hsize_t size = 0;
std::ostringstream os;
unsigned int major = 0, minor = 0, release = 0;
std::string indentString = H5Object::getIndentString(indentLevel + 1);
err = H5Fget_filesize(file, &size);
if (err < 0)
{
throw H5Exception(__LINE__, __FILE__, _("Cannot retrieve file size: %s"), filename.c_str());
}
err = H5get_libversion(&major, &minor, &release);
os << H5Object::getIndentString(indentLevel) << "HDF5 File" << std::endl
<< indentString << "Filename" << ": " << filename << std::endl
<< indentString << "Version" << ": " << major << "." << minor << "." << release << std::endl
<< indentString << "Size" << ": " << size << std::endl
<< indentString << "Root" << ": /" << std::endl;
return os.str();
}
/*-------------------------------------------------------------------------
* Function: test_dataset_write_with_filters
*
* Purpose: Tests creating datasets and writing data with dynamically loaded filters
*
* Return: SUCCEED/FAIL
*
*-------------------------------------------------------------------------
*/
static herr_t
test_dataset_write_with_filters(hid_t fid)
{
hid_t dcpl_id = -1; /* Dataset creation property list ID */
unsigned int compress_level; /* Deflate compression level */
unsigned int filter1_data; /* Data used by filter 1 */
unsigned int libver_values[4]; /* Used w/ the filter that makes HDF5 calls */
/*----------------------------------------------------------
* STEP 1: Test deflation by itself.
*----------------------------------------------------------
*/
HDputs("Testing dataset writes with deflate filter");
#ifdef H5_HAVE_FILTER_DEFLATE
if ((dcpl_id = H5Pcreate(H5P_DATASET_CREATE)) < 0)
TEST_ERROR;
if (H5Pset_chunk(dcpl_id, 2, chunk_sizes_g) < 0)
TEST_ERROR;
compress_level = 6;
if (H5Pset_deflate(dcpl_id, compress_level) < 0)
TEST_ERROR;
/* Ensure the filter works */
if (ensure_filter_works(fid, DSET_DEFLATE_NAME, dcpl_id) < 0)
TEST_ERROR;
/* Clean up objects used for this test */
if (H5Pclose(dcpl_id) < 0)
TEST_ERROR;
#else /* H5_HAVE_FILTER_DEFLATE */
SKIPPED();
HDputs(" Deflate filter not enabled");
#endif /* H5_HAVE_FILTER_DEFLATE */
/*----------------------------------------------------------
* STEP 2: Test filter plugin 1 by itself.
*----------------------------------------------------------
*/
HDputs(" dataset writes with filter plugin 1");
if ((dcpl_id = H5Pcreate(H5P_DATASET_CREATE)) < 0)
TEST_ERROR;
if (H5Pset_chunk(dcpl_id, 2, chunk_sizes_g) < 0)
TEST_ERROR;
/* Set up the filter, passing in the amount the filter will add and subtract
* from each data element. Note that this value has an arbitrary max of 9.
*/
filter1_data = 9;
if (H5Pset_filter(dcpl_id, FILTER1_ID, H5Z_FLAG_MANDATORY, (size_t)1, &filter1_data) < 0)
TEST_ERROR;
/* Ensure the filter works */
if (ensure_filter_works(fid, DSET_FILTER1_NAME, dcpl_id) < 0)
TEST_ERROR;
/* Clean up objects used for this test */
if (H5Pclose(dcpl_id) < 0)
TEST_ERROR;
/* Unregister the dynamic filter for testing purpose. The next time when this test is run for
* the new file format, the library's H5PL code has to search in the table of loaded plugin libraries
* for this filter.
*/
if (H5Zunregister(FILTER1_ID) < 0)
TEST_ERROR;
/*----------------------------------------------------------
* STEP 3: Test filter plugin 2 by itself.
*----------------------------------------------------------
*/
HDputs(" dataset writes with filter plugin 2");
if ((dcpl_id = H5Pcreate(H5P_DATASET_CREATE)) < 0)
TEST_ERROR;
if (H5Pset_chunk(dcpl_id, 2, chunk_sizes_g) < 0)
TEST_ERROR;
if (H5Pset_filter(dcpl_id, FILTER2_ID, H5Z_FLAG_MANDATORY, 0, NULL) < 0)
TEST_ERROR;
/* Ensure the filter works */
if (ensure_filter_works(fid, DSET_FILTER2_NAME, dcpl_id) < 0)
TEST_ERROR;
/* Clean up objects used for this test */
if (H5Pclose(dcpl_id) < 0)
TEST_ERROR;
/* Unregister the dynamic filter for testing purpose. The next time when this test is run for
* the new file format, the library's H5PL code has to search in the table of loaded plugin libraries
* for this filter.
*/
if (H5Zunregister(FILTER2_ID) < 0)
TEST_ERROR;
/*----------------------------------------------------------
* STEP 4: Test filter plugin 3 by itself.
* (This filter plugin makes HDF5 API calls)
*----------------------------------------------------------
*/
HDputs(" dataset writes with filter plugin 3");
if ((dcpl_id = H5Pcreate(H5P_DATASET_CREATE)) < 0)
TEST_ERROR;
if (H5Pset_chunk(dcpl_id, 2, chunk_sizes_g) < 0)
TEST_ERROR;
/* Set the add/subtract value for the filter */
libver_values[0] = 9;
/* Get the library bounds and add to the filter data */
if (H5get_libversion(&libver_values[1], &libver_values[2], &libver_values[3]) < 0)
TEST_ERROR;
if (H5Pset_filter(dcpl_id, FILTER3_ID, H5Z_FLAG_MANDATORY, (size_t)4, libver_values) < 0)
TEST_ERROR;
/* Ensure the filter works */
if (ensure_filter_works(fid, DSET_FILTER3_NAME, dcpl_id) < 0)
TEST_ERROR;
/* Clean up objects used for this test */
if (H5Pclose(dcpl_id) < 0)
TEST_ERROR;
/* Unregister the dynamic filter for testing purpose. The next time when this test is run for
* the new file format, the library's H5PL code has to search in the table of loaded plugin libraries
* for this filter.
*/
if (H5Zunregister(FILTER3_ID) < 0)
TEST_ERROR;
return SUCCEED;
error:
/* Clean up objects used for this test */
H5E_BEGIN_TRY {
H5Pclose(dcpl_id);
} H5E_END_TRY
return FAIL;
} /* end test_dataset_write_with_filters() */
MainWindow::MainWindow(QWidget *parent) :
QMainWindow(parent),
ui(new Ui::MainWindow)
{
ui->setupUi(this);
//restoreGeometry( opts.mainwindowgeometry);
//restoreState( opts.windowstate );
setupStatusBar();
satlist = new SatelliteList();
seglist = new AVHRRSatellite(this, satlist);
formephem = new FormEphem(this, satlist, seglist);
ui->stackedWidget->addWidget(formephem); // index 0
formtoolbox = NULL;
formgeostationary = new FormGeostationary(this, satlist, seglist);
ui->stackedWidget->addWidget(formgeostationary); // index 1
cylequidist = new CylEquiDist( opts.backgroundimage2D );
mapcyl = new MapFieldCyl(this, cylequidist, satlist, seglist);
globe = new Globe(this, satlist, seglist);
formimage = new FormImage(this, satlist, seglist);
imagescrollarea = new ImageScrollArea();
imagescrollarea->setBackgroundRole(QPalette::Dark);
imagescrollarea->setWidget(formimage);
formgeostationary->SetFormImage(formimage);
connect(formimage, SIGNAL(moveImage(QPoint, QPoint)), this, SLOT(moveImage(QPoint, QPoint)));
for( int i = 0; i < 8; i++)
{
connect(&seglist->seglmeteosat->watcherRed[i], SIGNAL(finished()), formimage, SLOT(slotUpdateMeteosat()));
connect(&seglist->seglmeteosat->watcherGreen[i], SIGNAL(finished()), formimage, SLOT(slotUpdateMeteosat()));
connect(&seglist->seglmeteosat->watcherBlue[i], SIGNAL(finished()), formimage, SLOT(slotUpdateMeteosat()));
}
for( int i = 0; i < 24; i++)
{
connect(&seglist->seglmeteosat->watcherHRV[i], SIGNAL(finished()), formimage, SLOT(slotUpdateMeteosat()));
}
for( int i = 0; i < 8; i++)
{
connect(&seglist->seglmeteosatrss->watcherRed[i], SIGNAL(finished()), formimage, SLOT(slotUpdateMeteosat()));
connect(&seglist->seglmeteosatrss->watcherGreen[i], SIGNAL(finished()), formimage, SLOT(slotUpdateMeteosat()));
connect(&seglist->seglmeteosatrss->watcherBlue[i], SIGNAL(finished()), formimage, SLOT(slotUpdateMeteosat()));
}
for( int i = 0; i < 24; i++)
{
connect(&seglist->seglmeteosatrss->watcherHRV[i], SIGNAL(finished()), formimage, SLOT(slotUpdateMeteosat()));
}
for( int i = 0; i < 8; i++)
{
connect(&seglist->seglmet8->watcherRed[i], SIGNAL(finished()), formimage, SLOT(slotUpdateMeteosat()));
connect(&seglist->seglmet8->watcherGreen[i], SIGNAL(finished()), formimage, SLOT(slotUpdateMeteosat()));
connect(&seglist->seglmet8->watcherBlue[i], SIGNAL(finished()), formimage, SLOT(slotUpdateMeteosat()));
}
for( int i = 0; i < 24; i++)
{
connect(&seglist->seglmet8->watcherHRV[i], SIGNAL(finished()), formimage, SLOT(slotUpdateMeteosat()));
}
for( int i = 0; i < 10; i++)
{
connect(&seglist->seglmet7->watcherMono[i], SIGNAL(finished()), formimage, SLOT(slotUpdateMeteosat()));
}
for( int i = 0; i < 7; i++)
{
connect(&seglist->seglgoes13dc3->watcherMono[i], SIGNAL(finished()), formimage, SLOT(slotUpdateMeteosat()));
}
for( int i = 0; i < 7; i++)
{
connect(&seglist->seglgoes15dc3->watcherMono[i], SIGNAL(finished()), formimage, SLOT(slotUpdateMeteosat()));
}
for( int i = 0; i < 7; i++)
{
connect(&seglist->seglgoes13dc4->watcherMono[i], SIGNAL(finished()), formimage, SLOT(slotUpdateMeteosat()));
}
for( int i = 0; i < 7; i++)
{
connect(&seglist->seglgoes15dc4->watcherMono[i], SIGNAL(finished()), formimage, SLOT(slotUpdateMeteosat()));
}
connect(seglist->seglfy2e, SIGNAL(imagefinished()), formimage, SLOT(slotUpdateMeteosat()));
connect(seglist->seglfy2g, SIGNAL(imagefinished()), formimage, SLOT(slotUpdateMeteosat()));
for( int i = 0; i < 10; i++)
{
connect(&seglist->seglh8->watcherRed[i], SIGNAL(finished()), formimage, SLOT(slotUpdateMeteosat()));
connect(&seglist->seglh8->watcherGreen[i], SIGNAL(finished()), formimage, SLOT(slotUpdateMeteosat()));
connect(&seglist->seglh8->watcherBlue[i], SIGNAL(finished()), formimage, SLOT(slotUpdateMeteosat()));
}
imageptrs->gvp = new GeneralVerticalPerspective(this, seglist);
imageptrs->lcc = new LambertConformalConic(this, seglist);
imageptrs->sg = new StereoGraphic(this, seglist);
QMainWindow::setCorner(Qt::TopLeftCorner, Qt::LeftDockWidgetArea);
QMainWindow::setCorner(Qt::TopRightCorner, Qt::RightDockWidgetArea);
QMainWindow::setCorner(Qt::BottomLeftCorner, Qt::LeftDockWidgetArea);
QMainWindow::setCorner(Qt::BottomRightCorner, Qt::RightDockWidgetArea);
forminfrascales = new FormInfraScales();
formtoolbox = new FormToolbox(this, formimage, formgeostationary, forminfrascales, seglist);
formimage->SetFormToolbox(formtoolbox);
formgeostationary->SetFormToolBox(formtoolbox);
connect(seglist->seglmeteosat, SIGNAL(progressCounter(int)), formtoolbox, SLOT(setValueProgressBar(int)));
connect(seglist->seglmeteosatrss, SIGNAL(progressCounter(int)), formtoolbox, SLOT(setValueProgressBar(int)));
connect(seglist->seglmet8, SIGNAL(progressCounter(int)), formtoolbox, SLOT(setValueProgressBar(int)));
connect(seglist->seglmet7, SIGNAL(progressCounter(int)), formtoolbox, SLOT(setValueProgressBar(int)));
connect(seglist->seglgoes13dc3, SIGNAL(progressCounter(int)), formtoolbox, SLOT(setValueProgressBar(int)));
connect(seglist->seglgoes15dc3, SIGNAL(progressCounter(int)), formtoolbox, SLOT(setValueProgressBar(int)));
connect(seglist->seglgoes13dc4, SIGNAL(progressCounter(int)), formtoolbox, SLOT(setValueProgressBar(int)));
connect(seglist->seglgoes15dc4, SIGNAL(progressCounter(int)), formtoolbox, SLOT(setValueProgressBar(int)));
connect(seglist->seglfy2e, SIGNAL(progressCounter(int)), formtoolbox, SLOT(setValueProgressBar(int)));
connect(seglist->seglfy2g, SIGNAL(progressCounter(int)), formtoolbox, SLOT(setValueProgressBar(int)));
connect(seglist->seglh8, SIGNAL(progressCounter(int)), formtoolbox, SLOT(setValueProgressBar(int)));
connect(seglist->seglviirsm, SIGNAL(progressCounter(int)), formtoolbox, SLOT(setValueProgressBar(int)));
connect(seglist->seglviirsdnb, SIGNAL(progressCounter(int)), formtoolbox, SLOT(setValueProgressBar(int)));
connect(seglist->seglolciefr, SIGNAL(progressCounter(int)), formtoolbox, SLOT(setValueProgressBar(int)));
connect(seglist->seglolcierr, SIGNAL(progressCounter(int)), formtoolbox, SLOT(setValueProgressBar(int)));
connect(seglist->seglmetop, SIGNAL(progressCounter(int)), formtoolbox, SLOT(setValueProgressBar(int)));
connect(seglist->seglnoaa, SIGNAL(progressCounter(int)), formtoolbox, SLOT(setValueProgressBar(int)));
connect(seglist->seglhrp, SIGNAL(progressCounter(int)), formtoolbox, SLOT(setValueProgressBar(int)));
connect(seglist->seglgac, SIGNAL(progressCounter(int)), formtoolbox, SLOT(setValueProgressBar(int)));
connect(seglist, SIGNAL(progressCounter(int)), formtoolbox, SLOT(setValueProgressBar(int)));
connect(seglist->seglviirsdnb, SIGNAL(displayDNBGraph()), formtoolbox, SLOT(slotDisplayDNBGraph()));
formglobecyl = new FormMapCyl( this, mapcyl, globe, formtoolbox, satlist, seglist);
connect(seglist, SIGNAL(signalNothingSelected()), formglobecyl, SLOT(slotNothingSelected()));
createDockWidget();
forminfrascales->setFormImage(formimage);
addDockWidget(Qt::BottomDockWidgetArea, forminfrascales);
forminfrascales->hide();
formimage->SetDockWidgetInfraScales(forminfrascales);
ui->stackedWidget->addWidget(formglobecyl); // index 2
ui->stackedWidget->addWidget(imagescrollarea); // index 3
ui->stackedWidget->setCurrentIndex(0);
connect(seglist->seglmetop, SIGNAL(segmentlistfinished(bool)), formimage, SLOT(setPixmapToLabel(bool)));
connect(seglist->seglnoaa, SIGNAL(segmentlistfinished(bool)), formimage, SLOT(setPixmapToLabel(bool)));
connect(seglist->seglhrp, SIGNAL(segmentlistfinished(bool)), formimage, SLOT(setPixmapToLabel(bool)));
connect(seglist->seglgac, SIGNAL(segmentlistfinished(bool)), formimage, SLOT(setPixmapToLabel(bool)));
connect(seglist->seglviirsm, SIGNAL(segmentlistfinished(bool)), formimage, SLOT(setPixmapToLabel(bool)));
connect(seglist->seglviirsdnb, SIGNAL(segmentlistfinished(bool)), formimage, SLOT(setPixmapToLabelDNB(bool)));
connect(seglist->seglolciefr, SIGNAL(segmentlistfinished(bool)), formimage, SLOT(setPixmapToLabel(bool)));
connect(seglist->seglolcierr, SIGNAL(segmentlistfinished(bool)), formimage, SLOT(setPixmapToLabel(bool)));
connect(seglist->seglmetop, SIGNAL(segmentprojectionfinished(bool)), formimage, SLOT(setPixmapToLabel(bool)));
connect(seglist->seglnoaa, SIGNAL(segmentprojectionfinished(bool)), formimage, SLOT(setPixmapToLabel(bool)));
connect(seglist->seglhrp, SIGNAL(segmentprojectionfinished(bool)), formimage, SLOT(setPixmapToLabel(bool)));
connect(seglist->seglgac, SIGNAL(segmentprojectionfinished(bool)), formimage, SLOT(setPixmapToLabel(bool)));
connect(seglist->seglviirsm, SIGNAL(segmentprojectionfinished(bool)), formimage, SLOT(setPixmapToLabel(bool)));
connect(seglist->seglviirsdnb, SIGNAL(segmentprojectionfinished(bool)), formimage, SLOT(setPixmapToLabel(bool)));
connect(seglist->seglolciefr, SIGNAL(segmentprojectionfinished(bool)), formimage, SLOT(setPixmapToLabel(bool)));
connect(seglist->seglolcierr, SIGNAL(segmentprojectionfinished(bool)), formimage, SLOT(setPixmapToLabel(bool)));
connect( formglobecyl, SIGNAL(signalSegmentChanged(QString)), this, SLOT(updateStatusBarIndicator(QString)) );
connect( ui->stackedWidget, SIGNAL(currentChanged(int)),formglobecyl, SLOT(updatesatmap(int)) );
connect( formephem,SIGNAL(signalDirectoriesRead()), formgeostationary, SLOT(PopulateTree()) );
connect( seglist,SIGNAL(signalAddedSegmentlist()), formephem, SLOT(showSegmentsAdded()));
connect( formephem,SIGNAL(signalDirectoriesRead()), formglobecyl, SLOT(setScrollBarMaximum()));
connect( formglobecyl, SIGNAL(emitMakeImage()), formimage, SLOT(slotMakeImage()));
connect( formtoolbox, SIGNAL(emitShowVIIRSImage()), formimage, SLOT(slotShowVIIRSMImage()));
connect( formtoolbox, SIGNAL(emitShowOLCIefrImage()), formimage, SLOT(slotShowOLCIefrImage()));
connect( formtoolbox, SIGNAL(emitShowOLCIerrImage()), formimage, SLOT(slotShowOLCIerrImage()));
connect( globe , SIGNAL(mapClicked()), formephem, SLOT(showSelectedSegmentList()));
connect( mapcyl , SIGNAL(mapClicked()), formephem, SLOT(showSelectedSegmentList()));
connect( formephem, SIGNAL(signalDatagram(QByteArray)), seglist, SLOT(AddSegmentsToListFromUdp(QByteArray)));
connect( formimage, SIGNAL(render3dgeo(SegmentListGeostationary::eGeoSatellite)), globe, SLOT(Render3DGeo(SegmentListGeostationary::eGeoSatellite)));
connect( formimage, SIGNAL(allsegmentsreceivedbuttons(bool)), formtoolbox, SLOT(setToolboxButtons(bool)));
connect( globe, SIGNAL(renderingglobefinished(bool)), formtoolbox, SLOT(setToolboxButtons(bool)));
connect( formgeostationary, SIGNAL(geostationarysegmentschosen(SegmentListGeostationary::eGeoSatellite, QStringList)), formtoolbox, SLOT(geostationarysegmentsChosen(SegmentListGeostationary::eGeoSatellite, QStringList)));
connect( formtoolbox, SIGNAL(getmeteosatchannel(QString, QVector<QString>, QVector<bool>)), formgeostationary, SLOT(CreateGeoImage(QString, QVector<QString>, QVector<bool>)));
connect( formtoolbox, SIGNAL(screenupdateprojection()), formimage, SLOT(slotUpdateProjection()));
connect( formtoolbox, SIGNAL(switchstackedwidget(int)), this, SLOT(slotSwitchStackedWindow(int)));
connect( formgeostationary, SIGNAL(enabletoolboxbuttons(bool)), formtoolbox, SLOT(setToolboxButtons(bool)));
formtoolbox->setChannelIndex();
setWindowTitle(tr("EUMETCast Viewer"));
timer = new QTimer( this );
timer->start( 1000);
connect(timer, SIGNAL(timeout()), formephem, SLOT(timerDone()));
connect(timer, SIGNAL(timeout()), this, SLOT(timerDone()));
herr_t h5_status;
unsigned int majnum;
unsigned int minnum;
unsigned int relnum;
h5_status = H5get_libversion(&majnum, &minnum, &relnum);
qDebug() << QString("HDF5 library %1.%2.%3").arg(majnum).arg(minnum).arg(relnum);
loadLayout();
}
/* ****************************************************************************************************************************** */
int main(int argc, char *argv[]) {
hid_t fileID, dataSetID;
herr_t hErrVal;
int i;
hsize_t dims[1024], maxDims[1024];
H5T_class_t class;
char classStr[32];
hid_t dataTypeID;
size_t dataSize;
H5T_order_t order;
int rank; /* Note this is an int, not an hssize_t */
int intVal;
hid_t dataSpaceID;
hid_t rootGroupID;
hsize_t numInRootGrp, firstDataSetIdx, foundFirstDataSet;
char attrName[1024], firstDataSetName[1024];
ssize_t objectNameSize, attrNameSize;
H5G_stat_t objectStatInfo;
int numAttrs;
int curAttrIdx;
hid_t attrID;
hsize_t numDataPoints;
unsigned majnum, minnum, relnum;
/* Load the library -- not required most platforms. */
hErrVal = H5open();
mjrHDF5_chkError(hErrVal);
/* Get the library version */
hErrVal = H5get_libversion(&majnum, &minnum, &relnum);
mjrHDF5_chkError(hErrVal);
printf("Lib Version: v%lu.%lur%lu\n", (unsigned long)majnum, (unsigned long)minnum, (unsigned long)relnum);
/* Open an existing file. */
fileID = H5Fopen(TST_FILE_NAME, H5F_ACC_RDWR, H5P_DEFAULT);
mjrHDF5_chkError(fileID);
/* Get the ID for the "root" group -- every HDF5 has one */
rootGroupID = H5Gopen(fileID, "/", H5P_DEFAULT);
mjrHDF5_chkError(rootGroupID);
/* Get the number of objects in the root group. */
hErrVal = H5Gget_num_objs(rootGroupID, &numInRootGrp);
mjrHDF5_chkError(hErrVal);
printf("The root group contains %lu object%c\n", (unsigned long)numInRootGrp, (numInRootGrp==1?' ':'s'));
if(numInRootGrp < 1) {
printf("As the file contains NO objects, I have nothing left to do...\n");
exit(1);
} /* end if */
/* Find the first dataset in the root group. */
for(foundFirstDataSet=0,firstDataSetIdx=0; (!foundFirstDataSet)&&(firstDataSetIdx<numInRootGrp); firstDataSetIdx++) {
/* Get object name from the index. */
objectNameSize = H5Gget_objname_by_idx(rootGroupID, firstDataSetIdx, firstDataSetName, 1024);
mjrHDF5_chkError(objectNameSize);
if(objectNameSize == 0) { /* Need to check for zero return too */
printf("ERROR: Object with index %lu doesn't exist in root group!\n", (unsigned long)firstDataSetIdx);
exit(1);
} /* end if */
/* Now use the object name to get info about the object... */
hErrVal = H5Gget_objinfo(rootGroupID, firstDataSetName, 0, &objectStatInfo);
mjrHDF5_chkError(hErrVal);
/* If the object is a dataset, then print out some info. */
if(objectStatInfo.type == H5G_DATASET) {
printf("Object %luth (%s) is a dataset!\n", (unsigned long)firstDataSetIdx, firstDataSetName);
printf("The name of the %luth object of the root group is: %s\n", (unsigned long)firstDataSetIdx, firstDataSetName);
foundFirstDataSet = 1;
printf("Info for the %s dataset:\n", firstDataSetName);
printf(" Modify time: %lu\n", (unsigned long)objectStatInfo.mtime);
printf(" Type: %lu\n", (unsigned long)objectStatInfo.type);
printf(" Link count: %lu\n", (unsigned long)objectStatInfo.nlink);
} /* end if */
} /* end for */
/* Note: At this point index of the dataset will be: firstDataSetIdx-- */
if(!foundFirstDataSet) {
printf("ERROR: Could not find a dataset in the root group\n");
exit(1);
} /* end if */
/* Open the dataset we found -- we know it exists. */
dataSetID = H5Dopen(rootGroupID, firstDataSetName, H5P_DEFAULT);
mjrHDF5_chkError(dataSetID);
/* ****************************************************************************************************************************** */
/* Get some info regarding the TYPE of the dataset. */
dataTypeID = H5Dget_type(dataSetID);
mjrHDF5_chkError(dataTypeID);
/* Get the class of the data */
class = H5Tget_class(dataTypeID);
mjrHDF5_Tclass2str(class, classStr);
printf(" Object class: %s\n", classStr);
/* Get the size of the type */
dataSize = H5Tget_size(dataTypeID);
if(dataSize == 0) {
printf("ERROR: Failure in H5Tget_size().\n");
exit(1);
} /* end if */
printf(" Size of data type: %lu\n", (unsigned long)dataSize);
/* Get the byte order */
order = H5Tget_order(dataTypeID);
printf(" Byte Order: ");
switch(order) {
case H5T_ORDER_ERROR : printf("ERROR\n"); break;
case H5T_ORDER_LE : printf("Little Endian\n"); break;
case H5T_ORDER_BE : printf("Big Endian\n"); break;
case H5T_ORDER_VAX : printf("VAX mixed endian\n"); break;
case H5T_ORDER_MIXED : printf("Mixed endian\n"); break;
case H5T_ORDER_NONE : printf("particular order\n"); break;
} /* end switch */
/* We are done with the datatype. */
hErrVal = H5Tclose(dataTypeID);
mjrHDF5_chkError(hErrVal);
/* ****************************************************************************************************************************** */
/* Figure out the size of the dataset. */
dataSpaceID = H5Dget_space(dataSetID);
mjrHDF5_chkError(dataSpaceID);
/* Get the number of dims. */
rank = H5Sget_simple_extent_ndims(dataSpaceID);
mjrHDF5_chkError(rank);
if(rank > 1024) {
/* This can't really happen (limit is 32) */
printf("ERROR: rank too large.\n");
exit(1);
} /* end if */
/* Get the size of each dim. */
intVal = H5Sget_simple_extent_dims(dataSpaceID, dims, maxDims);
mjrHDF5_chkError(intVal);
printf(" Dataspace Rank %lu\n", (unsigned long)rank);
printf(" Dim Lengths: ");
for(i=0; i<rank; i++)
if(dims[i] == H5S_UNLIMITED) {
printf("%s ", "UNLIMITED");
} else {
printf("%ld ", (long)(dims[i]));
} /* end if/else */
printf("\n");
printf(" Max Dim Lengths: ");
for(i=0; i<rank; i++)
if(maxDims[i] == H5S_UNLIMITED) {
printf("%s ", "UNLIMITED");
} else {
printf("%ld ", (long)(maxDims[i]));
} /* end if/else */
printf("\n");
numDataPoints = H5Sget_simple_extent_npoints(dataSpaceID);
if(numDataPoints == 0) {
printf("ERROR: Call to H5Sget_simple_extent_npoints failed.\n");
exit(1);
} /* end if */
printf("Number of data points: %lu\n", (unsigned long)numDataPoints);
/* We are done with the dataSpaceID */
hErrVal = H5Sclose(dataSpaceID);
mjrHDF5_chkError(hErrVal);
/* Get the number of attributes for the dataSet. */
numAttrs = H5Aget_num_attrs(dataSetID);
mjrHDF5_chkError(numAttrs);
printf(" Number of attrs: %lu\n", (unsigned long)numAttrs);
/* If we have any attributes, we get info for them */
if(numAttrs > 0) {
printf(" Attribute info:\n");
for(curAttrIdx=0; curAttrIdx<numAttrs; curAttrIdx++) {
attrID = H5Aopen_idx(dataSetID, curAttrIdx);
mjrHDF5_chkError(attrID);
attrNameSize = H5Aget_name(attrID, 1024, attrName);
mjrHDF5_chkError(attrNameSize);
printf(" Number %3lu: ", (unsigned long)curAttrIdx);
dataTypeID = H5Aget_type(attrID);
mjrHDF5_chkError(dataTypeID);
/* Get the class for the type. */
class = H5Tget_class(dataTypeID);
mjrHDF5_Tclass2str(class, classStr);
printf(" Class: %-16s", classStr);
/* Get the size of the type */
dataSize = H5Tget_size(dataTypeID);
if(dataSize == 0) {
printf("ERROR: Failure in H5Tget_size().\n");
exit(1);
} /* end if */
printf(" Size: %3lu ", (unsigned long)dataSize);
hErrVal = H5Tclose(dataTypeID);
mjrHDF5_chkError(hErrVal);
printf(" Name: %s \n", attrName);
hErrVal = H5Aclose(attrID);
mjrHDF5_chkError(hErrVal);
} /* end for */
} /* end if */
