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Moved socket commands into files grouped by case info, geometry, project info and property data

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p4#: 21712
This commit is contained in:
Magne Sjaastad
2013-05-24 11:07:59 +02:00
parent d9750b2dd4
commit 7ba9cef84b
9 changed files with 1190 additions and 963 deletions
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673
ApplicationCode/SocketInterface/RiaSocketServer.cpp
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@@ -57,679 +57,6 @@
RimCase * findCaseFromArgs(RiaSocketServer* server, const QList<QByteArray>& args )
{
RimCase* rimCase = NULL;
int caseId = -1;
if (args.size() > 1)
{
caseId = args[1].toInt();
}
rimCase = server->findReservoir(caseId);
if (rimCase == NULL)
{
server->errorMessageDialog()->showMessage(RiaSocketServer::tr("ResInsight SocketServer: \n") + RiaSocketServer::tr("Could not find the Case with CaseId : \"%1\"").arg(caseId));
}
return rimCase;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void getCaseInfoFromCase(RimCase* rimCase, qint64& caseId, QString& caseName, QString& caseType, qint64& caseGroupId)
{
CVF_ASSERT(rimCase);
caseId = rimCase->caseId;
caseName = rimCase->caseUserDescription;
RimCaseCollection* caseCollection = rimCase->parentCaseCollection();
if (caseCollection)
{
caseGroupId = caseCollection->parentCaseGroup()->groupId;
if (RimIdenticalGridCaseGroup::isStatisticsCaseCollection(caseCollection))
{
caseType = "StatisticsCase";
}
else
{
caseType = "SourceCase";
}
}
else
{
caseGroupId = -1;
if (dynamic_cast<RimInputCase*>(rimCase))
{
caseType = "InputCase";
}
else
{
caseType = "ResultCase";
}
}
}
class RiaGetCurrentCase: public RiaSocketCommand
{
public:
static QString commandName () { return QString("GetCurrentCase"); }
virtual bool interpretCommand(RiaSocketServer* server, const QList<QByteArray>& args, QDataStream& socketStream)
{
qint64 caseId = -1;
QString caseName;
QString caseType;
qint64 caseGroupId = -1;
RimCase* rimCase = server->findReservoir(caseId);
if (rimCase)
{
getCaseInfoFromCase(rimCase, caseId, caseName, caseType, caseGroupId);
}
quint64 byteCount = 2*sizeof(qint64);
byteCount += caseName.size()*sizeof(QChar);
byteCount += caseType.size()*sizeof(QChar);
socketStream << byteCount;
socketStream << caseId;
socketStream << caseName;
socketStream << caseType;
socketStream << caseGroupId;
return true;
}
};
static bool RiaGetCurrentCase_init = RiaSocketCommandFactory::instance()->registerCreator<RiaGetCurrentCase>(RiaGetCurrentCase::commandName());
class RiaGetCaseGroups: public RiaSocketCommand
{
public:
static QString commandName () { return QString("GetCaseGroups"); }
virtual bool interpretCommand(RiaSocketServer* server, const QList<QByteArray>& args, QDataStream& socketStream)
{
if (RiaApplication::instance()->project())
{
std::vector<QString> groupNames;
std::vector<qint64> groupIds;
size_t caseGroupCount = RiaApplication::instance()->project()->caseGroups().size();
quint64 byteCount = 0;
for (size_t i = 0; i < caseGroupCount; i++)
{
RimIdenticalGridCaseGroup* cg = RiaApplication::instance()->project()->caseGroups()[i];
QString caseGroupName = cg->name;
qint64 caseGroupId = cg->groupId;
byteCount += caseGroupName.size() * sizeof(QChar);
byteCount += sizeof(qint64);
groupNames.push_back(caseGroupName);
groupIds.push_back(caseGroupId);
}
socketStream << (quint64)byteCount;
socketStream << (quint64)caseGroupCount;
for (size_t i = 0; i < caseGroupCount; i++)
{
socketStream << groupNames[i];
socketStream << groupIds[i];
}
}
else
{
// ERROR
}
return true;
}
};
static bool RiaGetCaseGroups_init = RiaSocketCommandFactory::instance()->registerCreator<RiaGetCaseGroups>(RiaGetCaseGroups::commandName());
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void getCaseInfoFromCases(std::vector<RimCase*>& cases, std::vector<qint64>& caseIds, std::vector<QString>& caseNames, std::vector<QString> &caseTypes, std::vector<qint64>& caseGroupIds)
{
for (size_t i = 0; i < cases.size(); i++)
{
RimCase* rimCase = cases[i];
qint64 caseId = -1;
QString caseName;
QString caseType;
qint64 caseGroupId = -1;
getCaseInfoFromCase(rimCase, caseId, caseName, caseType, caseGroupId);
caseIds.push_back(rimCase->caseId);
caseNames.push_back(rimCase->caseUserDescription);
caseTypes.push_back(caseType);
caseGroupIds.push_back(caseGroupId);
}
}
class RiaGetSelectedCases: public RiaSocketCommand
{
public:
static QString commandName () { return QString("GetSelectedCases"); }
virtual bool interpretCommand(RiaSocketServer* server, const QList<QByteArray>& args, QDataStream& socketStream)
{
RiuMainWindow* ruiMainWindow = RiuMainWindow::instance();
if (ruiMainWindow)
{
std::vector<RimCase*> cases;
ruiMainWindow->selectedCases(cases);
std::vector<qint64> caseIds;
std::vector<QString> caseNames;
std::vector<QString> caseTypes;
std::vector<qint64> caseGroupIds;
getCaseInfoFromCases(cases, caseIds, caseNames, caseTypes, caseGroupIds);
quint64 byteCount = sizeof(quint64);
quint64 selectionCount = caseIds.size();
for (size_t i = 0; i < selectionCount; i++)
{
byteCount += 2*sizeof(qint64);
byteCount += caseNames[i].size() * sizeof(QChar);
byteCount += caseTypes[i].size() * sizeof(QChar);
}
socketStream << byteCount;
socketStream << selectionCount;
for (size_t i = 0; i < selectionCount; i++)
{
socketStream << caseIds[i];
socketStream << caseNames[i];
socketStream << caseTypes[i];
socketStream << caseGroupIds[i];
}
}
return true;
}
};
static bool RiaGetSelectedCases_init = RiaSocketCommandFactory::instance()->registerCreator<RiaGetSelectedCases>(RiaGetSelectedCases::commandName());
class RiaGetCases: public RiaSocketCommand
{
public:
static QString commandName () { return QString("GetCases"); }
virtual bool interpretCommand(RiaSocketServer* server, const QList<QByteArray>& args, QDataStream& socketStream)
{
int argCaseGroupId = -1;
if (args.size() == 2)
{
argCaseGroupId = args[1].toInt();
}
if (RiaApplication::instance()->project())
{
RimProject* proj = RiaApplication::instance()->project();
std::vector<RimCase*> cases;
if (argCaseGroupId == -1)
{
proj->allCases(cases);
}
else
{
RimIdenticalGridCaseGroup* caseGroup = NULL;
for (size_t i = 0; i < RiaApplication::instance()->project()->caseGroups().size(); i++)
{
RimIdenticalGridCaseGroup* cg = RiaApplication::instance()->project()->caseGroups()[i];
if (argCaseGroupId == cg->groupId())
{
caseGroup = cg;
}
}
if (caseGroup)
{
for (size_t i = 0; i < caseGroup->statisticsCaseCollection()->reservoirs.size(); i++)
{
cases.push_back(caseGroup->statisticsCaseCollection()->reservoirs[i]);
}
for (size_t i = 0; i < caseGroup->caseCollection()->reservoirs.size(); i++)
{
cases.push_back(caseGroup->caseCollection()->reservoirs[i]);
}
}
}
std::vector<qint64> caseIds;
std::vector<QString> caseNames;
std::vector<QString> caseTypes;
std::vector<qint64> caseGroupIds;
getCaseInfoFromCases(cases, caseIds, caseNames, caseTypes, caseGroupIds);
quint64 byteCount = sizeof(quint64);
quint64 caseCount = caseIds.size();
for (size_t i = 0; i < caseCount; i++)
{
byteCount += 2*sizeof(qint64);
byteCount += caseNames[i].size() * sizeof(QChar);
byteCount += caseTypes[i].size() * sizeof(QChar);
}
socketStream << byteCount;
socketStream << caseCount;
for (size_t i = 0; i < caseCount; i++)
{
socketStream << caseIds[i];
socketStream << caseNames[i];
socketStream << caseTypes[i];
socketStream << caseGroupIds[i];
}
}
return true;
}
};
static bool RiaGetCases_init = RiaSocketCommandFactory::instance()->registerCreator<RiaGetCases>(RiaGetCases::commandName());
class RiaGetMainGridDimensions: public RiaSocketCommand
{
public:
static QString commandName () { return QString("GetMainGridDimensions"); }
virtual bool interpretCommand(RiaSocketServer* server, const QList<QByteArray>& args, QDataStream& socketStream)
{
RimCase* rimCase = findCaseFromArgs(server, args);
if (!rimCase) return true;
// Write data back to octave: I, J, K dimensions
size_t iCount = 0;
size_t jCount = 0;
size_t kCount = 0;
if (rimCase && rimCase->reservoirData() && rimCase->reservoirData()->mainGrid())
{
iCount = rimCase->reservoirData()->mainGrid()->cellCountI();
jCount = rimCase->reservoirData()->mainGrid()->cellCountJ();
kCount = rimCase->reservoirData()->mainGrid()->cellCountK();
}
socketStream << (quint64)iCount << (quint64)jCount << (quint64)kCount;
return true;
}
};
static bool RiaGetMainGridDimensions_init = RiaSocketCommandFactory::instance()->registerCreator<RiaGetMainGridDimensions>(RiaGetMainGridDimensions::commandName());
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
class RiaGetActiveCellInfo: public RiaSocketCommand
{
public:
static QString commandName () { return QString("GetActiveCellInfo"); }
virtual bool interpretCommand(RiaSocketServer* server, const QList<QByteArray>& args, QDataStream& socketStream)
{
RimCase* rimCase = findCaseFromArgs(server, args);
if (!rimCase) return true;
RifReaderInterface::PorosityModelResultType porosityModel = RifReaderInterface::MATRIX_RESULTS;
if (args.size() > 2)
{
QString prorosityModelString = args[2];
if (prorosityModelString.toUpper() == "FRACTURE")
{
porosityModel = RifReaderInterface::FRACTURE_RESULTS;
}
}
// Write data back to octave: columnCount, bytesPrTimestep, GridNr I J K ParentGridNr PI PJ PK CoarseBoxIdx
caf::FixedArray<std::vector<qint32>, 9> activeCellInfo;
if (!(rimCase && rimCase->reservoirData() && rimCase->reservoirData()->mainGrid()) )
{
// No data available
socketStream << (quint64)0 << (quint64)0 ;
return true;
}
calculateMatrixModelActiveCellInfo(rimCase, porosityModel,
activeCellInfo[0],
activeCellInfo[1],
activeCellInfo[2],
activeCellInfo[3],
activeCellInfo[4],
activeCellInfo[5],
activeCellInfo[6],
activeCellInfo[7],
activeCellInfo[8]);
// First write column count
quint64 columnCount = (quint64)9;
socketStream << columnCount;
// then the byte-size of the size of one column
size_t timestepResultCount = activeCellInfo[0].size();
quint64 timestepByteCount = (quint64)(timestepResultCount*sizeof(qint32));
socketStream << timestepByteCount;
// Then write the data.
for (size_t tIdx = 0; tIdx < columnCount; ++tIdx)
{
#if 1 // Write data as raw bytes, fast but does not handle byteswapping
server->currentClient()->write((const char *)activeCellInfo[tIdx].data(), timestepByteCount);
#else // Write data using QDataStream, does byteswapping for us. Must use QDataStream on client as well
for (size_t cIdx = 0; cIdx < activeCellInfo[tIdx].size(); ++cIdx)
{
socketStream << activeCellInfo[tIdx][cIdx];
}
#endif
}
return true;
}
static void calculateMatrixModelActiveCellInfo(RimCase* reservoirCase, RifReaderInterface::PorosityModelResultType porosityModel, std::vector<qint32>& gridNumber, std::vector<qint32>& cellI, std::vector<qint32>& cellJ, std::vector<qint32>& cellK, std::vector<qint32>& parentGridNumber, std::vector<qint32>& hostCellI, std::vector<qint32>& hostCellJ, std::vector<qint32>& hostCellK, std::vector<qint32>& globalCoarseningBoxIdx)
{
gridNumber.clear();
cellI.clear();
cellJ.clear();
cellK.clear();
parentGridNumber.clear();
hostCellI.clear();
hostCellJ.clear();
hostCellK.clear();
globalCoarseningBoxIdx.clear();
if (!reservoirCase || !reservoirCase->reservoirData() || !reservoirCase->reservoirData()->mainGrid())
{
return;
}
RigActiveCellInfo* actCellInfo = reservoirCase->reservoirData()->activeCellInfo(porosityModel);
size_t numMatrixModelActiveCells = actCellInfo->globalActiveCellCount();
gridNumber.reserve(numMatrixModelActiveCells);
cellI.reserve(numMatrixModelActiveCells);
cellJ.reserve(numMatrixModelActiveCells);
cellK.reserve(numMatrixModelActiveCells);
parentGridNumber.reserve(numMatrixModelActiveCells);
hostCellI.reserve(numMatrixModelActiveCells);
hostCellJ.reserve(numMatrixModelActiveCells);
hostCellK.reserve(numMatrixModelActiveCells);
globalCoarseningBoxIdx.reserve(numMatrixModelActiveCells);
const std::vector<RigCell>& globalCells = reservoirCase->reservoirData()->mainGrid()->cells();
std::vector<size_t> globalCoarseningBoxIndexStart;
{
size_t globalCoarseningBoxCount = 0;
for (size_t gridIdx = 0; gridIdx < reservoirCase->reservoirData()->gridCount(); gridIdx++)
{
globalCoarseningBoxIndexStart.push_back(globalCoarseningBoxCount);
RigGridBase* grid = reservoirCase->reservoirData()->grid(gridIdx);
size_t localCoarseningBoxCount = grid->coarseningBoxCount();
globalCoarseningBoxCount += localCoarseningBoxCount;
}
}
for (size_t cIdx = 0; cIdx < globalCells.size(); ++cIdx)
{
if (actCellInfo->isActive(cIdx))
{
RigGridBase* grid = globalCells[cIdx].hostGrid();
CVF_ASSERT(grid != NULL);
size_t cellIndex = globalCells[cIdx].cellIndex();
size_t i, j, k;
grid->ijkFromCellIndex(cellIndex, &i, &j, &k);
size_t pi, pj, pk;
RigGridBase* parentGrid = NULL;
if (grid->isMainGrid())
{
pi = i;
pj = j;
pk = k;
parentGrid = grid;
}
else
{
size_t parentCellIdx = globalCells[cIdx].parentCellIndex();
parentGrid = (static_cast<RigLocalGrid*>(grid))->parentGrid();
CVF_ASSERT(parentGrid != NULL);
parentGrid->ijkFromCellIndex(parentCellIdx, &pi, &pj, &pk);
}
gridNumber.push_back(static_cast<qint32>(grid->gridIndex()));
cellI.push_back(static_cast<qint32>(i + 1)); // NB: 1-based index in Octave
cellJ.push_back(static_cast<qint32>(j + 1)); // NB: 1-based index in Octave
cellK.push_back(static_cast<qint32>(k + 1)); // NB: 1-based index in Octave
parentGridNumber.push_back(static_cast<qint32>(parentGrid->gridIndex()));
hostCellI.push_back(static_cast<qint32>(pi + 1)); // NB: 1-based index in Octave
hostCellJ.push_back(static_cast<qint32>(pj + 1)); // NB: 1-based index in Octave
hostCellK.push_back(static_cast<qint32>(pk + 1)); // NB: 1-based index in Octave
size_t coarseningIdx = globalCells[cIdx].coarseningBoxIndex();
if (coarseningIdx != cvf::UNDEFINED_SIZE_T)
{
size_t globalCoarseningIdx = globalCoarseningBoxIndexStart[grid->gridIndex()] + coarseningIdx;
globalCoarseningBoxIdx.push_back(static_cast<qint32>(globalCoarseningIdx + 1)); // NB: 1-based index in Octave
}
else
{
globalCoarseningBoxIdx.push_back(-1);
}
}
}
}
};
static bool RiaGetActiveCellInfo_init = RiaSocketCommandFactory::instance()->registerCreator<RiaGetActiveCellInfo>(RiaGetActiveCellInfo::commandName());
class RiaGetActiveCellProperty: public RiaSocketCommand
{
public:
static QString commandName () { return QString("GetActiveCellProperty"); }
virtual bool interpretCommand(RiaSocketServer* server, const QList<QByteArray>& args, QDataStream& socketStream)
{
RimCase* rimCase = findCaseFromArgs(server, args);
QString propertyName = args[2];
QString porosityModelName = args[3];
RifReaderInterface::PorosityModelResultType porosityModelEnum = RifReaderInterface::MATRIX_RESULTS;
if (porosityModelName == "Fracture")
{
porosityModelEnum = RifReaderInterface::FRACTURE_RESULTS;
}
// Find the requested data
size_t scalarResultIndex = cvf::UNDEFINED_SIZE_T;
std::vector< std::vector<double> >* scalarResultFrames = NULL;
if (rimCase && rimCase->results(porosityModelEnum))
{
scalarResultIndex = rimCase->results(porosityModelEnum)->findOrLoadScalarResult(propertyName);
if (scalarResultIndex != cvf::UNDEFINED_SIZE_T)
{
scalarResultFrames = &(rimCase->results(porosityModelEnum)->cellResults()->cellScalarResults(scalarResultIndex));
}
}
if (scalarResultFrames == NULL)
{
server->errorMessageDialog()->showMessage(RiaSocketServer::tr("ResInsight SocketServer: \n") + RiaSocketServer::tr("Could not find the %1 model property named: \"%2\"").arg(porosityModelName).arg(propertyName));
}
// Write data back : timeStepCount, bytesPrTimestep, dataForTimestep0 ... dataForTimestepN
if ( scalarResultFrames == NULL)
{
// No data available
socketStream << (quint64)0 << (quint64)0 ;
}
else
{
// Create a list of all the requested timesteps
std::vector<size_t> requestedTimesteps;
if (args.size() <= 4)
{
// Select all
for (size_t tsIdx = 0; tsIdx < scalarResultFrames->size(); ++tsIdx)
{
requestedTimesteps.push_back(tsIdx);
}
}
else
{
bool timeStepReadError = false;
for (int argIdx = 4; argIdx < args.size(); ++argIdx)
{
bool conversionOk = false;
int tsIdx = args[argIdx].toInt(&conversionOk);
if (conversionOk)
{
requestedTimesteps.push_back(tsIdx);
}
else
{
timeStepReadError = true;
}
}
if (timeStepReadError)
{
server->errorMessageDialog()->showMessage(RiaSocketServer::tr("ResInsight SocketServer: riGetActiveCellProperty : \n") + RiaSocketServer::tr("An error occured while interpreting the requested timesteps."));
}
}
// First write timestep count
quint64 timestepCount = (quint64)requestedTimesteps.size();
socketStream << timestepCount;
// then the byte-size of the result values in one timestep
const RigActiveCellInfo* activeInfo = rimCase->reservoirData()->activeCellInfo(porosityModelEnum);
size_t timestepResultCount = activeInfo->globalActiveCellCount();
quint64 timestepByteCount = (quint64)(timestepResultCount*sizeof(double));
socketStream << timestepByteCount ;
// Then write the data.
size_t globalCellCount = activeInfo->globalCellCount();
for (size_t tIdx = 0; tIdx < requestedTimesteps.size(); ++tIdx)
{
for (size_t gcIdx = 0; gcIdx < globalCellCount; ++gcIdx)
{
size_t resultIdx = activeInfo->cellResultIndex(gcIdx);
if (resultIdx != cvf::UNDEFINED_SIZE_T)
{
if (resultIdx < scalarResultFrames->at(requestedTimesteps[tIdx]).size())
{
socketStream << scalarResultFrames->at(requestedTimesteps[tIdx])[resultIdx];
}
else
{
socketStream << HUGE_VAL;
}
}
}
}
#if 0
// This aproach is faster but does not handle coarsening
size_t timestepResultCount = scalarResultFrames->front().size();
quint64 timestepByteCount = (quint64)(timestepResultCount*sizeof(double));
socketStream << timestepByteCount ;
// Then write the data.
for (size_t tIdx = 0; tIdx < requestedTimesteps.size(); ++tIdx)
{
#if 1 // Write data as raw bytes, fast but does not handle byteswapping
server->currentClient()->write((const char *)scalarResultFrames->at(requestedTimesteps[tIdx]).data(), timestepByteCount); // Raw print of data. Fast but no platform conversion
#else // Write data using QDataStream, does byteswapping for us. Must use QDataStream on client as well
for (size_t cIdx = 0; cIdx < scalarResultFrames->at(requestedTimesteps[tIdx]).size(); ++cIdx)
{
socketStream << scalarResultFrames->at(tIdx)[cIdx];
}
#endif
}
#endif
}
return true;
}
};
static bool RiaGetActiveCellProperty_init = RiaSocketCommandFactory::instance()->registerCreator<RiaGetActiveCellProperty>(RiaGetActiveCellProperty::commandName());
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------