ResInsight/GrpcInterface/RiaGrpcCaseService.cpp
2024-10-29 18:17:31 +01:00

779 lines
35 KiB
C++

/////////////////////////////////////////////////////////////////////////////////
//
// Copyright (C) 2019- Equinor ASA
//
// ResInsight is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// ResInsight is distributed in the hope that it will be useful, but WITHOUT ANY
// WARRANTY; without even the implied warranty of MERCHANTABILITY or
// FITNESS FOR A PARTICULAR PURPOSE.
//
// See the GNU General Public License at <http://www.gnu.org/licenses/gpl.html>
// for more details.
//
//////////////////////////////////////////////////////////////////////////////////
#include "RiaGrpcCaseService.h"
#include "RiaGrpcCallbacks.h"
#include "RiaGrpcHelper.h"
#include "RiaSocketTools.h"
#include "RigActiveCellInfo.h"
#include "RigCaseCellResultsData.h"
#include "RigEclipseCaseData.h"
#include "RigEclipseResultAddress.h"
#include "RigMainGrid.h"
#include "RimEclipseCase.h"
#include "RimEclipseResultDefinition.h"
#include "Riu3dSelectionManager.h"
using namespace rips;
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
RiaActiveCellInfoStateHandler::RiaActiveCellInfoStateHandler()
: m_request( nullptr )
, m_eclipseCase( nullptr )
, m_activeCellInfo( nullptr )
, m_currentCellIdx( 0u )
{
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
grpc::Status RiaActiveCellInfoStateHandler::init( const rips::CellInfoRequest* request )
{
CAF_ASSERT( request );
m_request = request;
m_porosityModel = RiaDefines::PorosityModelType( m_request->porosity_model() );
RimCase* rimCase = RiaGrpcHelper::findCase( m_request->case_request().id() );
m_eclipseCase = dynamic_cast<RimEclipseCase*>( rimCase );
if ( !m_eclipseCase )
{
return grpc::Status( grpc::NOT_FOUND, "Eclipse Case not found" );
}
if ( !m_eclipseCase->eclipseCaseData() || !m_eclipseCase->eclipseCaseData()->mainGrid() )
{
return grpc::Status( grpc::NOT_FOUND, "Eclipse Case Data not found" );
}
m_activeCellInfo = m_eclipseCase->eclipseCaseData()->activeCellInfo( m_porosityModel );
if ( !m_activeCellInfo )
{
return grpc::Status( grpc::NOT_FOUND, "Active Cell Info not found" );
}
size_t globalCoarseningBoxCount = 0;
for ( size_t gridIdx = 0; gridIdx < m_eclipseCase->eclipseCaseData()->gridCount(); gridIdx++ )
{
m_globalCoarseningBoxIndexStart.push_back( globalCoarseningBoxCount );
RigGridBase* grid = m_eclipseCase->eclipseCaseData()->grid( gridIdx );
size_t localCoarseningBoxCount = grid->coarseningBoxCount();
globalCoarseningBoxCount += localCoarseningBoxCount;
}
return grpc::Status::OK;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
grpc::Status RiaActiveCellInfoStateHandler::assignNextActiveCellInfoData( rips::CellInfo* cellInfo )
{
const std::vector<RigCell>& reservoirCells = m_eclipseCase->eclipseCaseData()->mainGrid()->reservoirCells();
while ( m_currentCellIdx < reservoirCells.size() )
{
size_t cellIdxToTry = m_currentCellIdx++;
if ( m_activeCellInfo->isActive( cellIdxToTry ) )
{
assignCellInfoData( cellInfo, reservoirCells, cellIdxToTry );
return grpc::Status::OK;
}
}
return Status( grpc::OUT_OF_RANGE, "We've reached the end. This is not an error but means transmission is finished" );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RiaActiveCellInfoStateHandler::assignCellInfoData( rips::CellInfo* cellInfo,
const std::vector<RigCell>& reservoirCells,
size_t cellIdx )
{
RigGridBase* grid = reservoirCells[cellIdx].hostGrid();
CVF_ASSERT( grid != nullptr );
size_t cellIndex = reservoirCells[cellIdx].gridLocalCellIndex();
size_t i, j, k;
grid->ijkFromCellIndex( cellIndex, &i, &j, &k );
size_t pi, pj, pk;
RigGridBase* parentGrid = nullptr;
if ( grid->isMainGrid() )
{
pi = i;
pj = j;
pk = k;
parentGrid = grid;
}
else
{
size_t parentCellIdx = reservoirCells[cellIdx].parentCellIndex();
parentGrid = ( static_cast<RigLocalGrid*>( grid ) )->parentGrid();
CVF_ASSERT( parentGrid != nullptr );
parentGrid->ijkFromCellIndex( parentCellIdx, &pi, &pj, &pk );
}
cellInfo->set_grid_index( (int)grid->gridIndex() );
cellInfo->set_parent_grid_index( (int)parentGrid->gridIndex() );
size_t coarseningIdx = reservoirCells[cellIdx].coarseningBoxIndex();
if ( coarseningIdx != cvf::UNDEFINED_SIZE_T )
{
size_t globalCoarseningIdx = m_globalCoarseningBoxIndexStart[grid->gridIndex()] + coarseningIdx;
cellInfo->set_coarsening_box_index( (int)globalCoarseningIdx );
}
else
{
cellInfo->set_coarsening_box_index( -1 );
}
{
rips::Vec3i* local_ijk = new rips::Vec3i;
local_ijk->set_i( (int)i );
local_ijk->set_j( (int)j );
local_ijk->set_k( (int)k );
cellInfo->set_allocated_local_ijk( local_ijk );
}
{
rips::Vec3i* parent_ijk = new rips::Vec3i;
parent_ijk->set_i( (int)pi );
parent_ijk->set_j( (int)pj );
parent_ijk->set_k( (int)pk );
cellInfo->set_allocated_parent_ijk( parent_ijk );
}
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
RigActiveCellInfo* RiaActiveCellInfoStateHandler::activeCellInfo() const
{
return m_activeCellInfo;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
const std::vector<RigCell>& RiaActiveCellInfoStateHandler::reservoirCells() const
{
const std::vector<RigCell>& reservoirCells = m_eclipseCase->eclipseCaseData()->mainGrid()->reservoirCells();
return reservoirCells;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
grpc::Status RiaActiveCellInfoStateHandler::assignReply( rips::CellInfoArray* reply )
{
const size_t packageSize = RiaGrpcHelper::numberOfDataUnitsInPackage( sizeof( rips::CellInfo ) );
size_t indexInPackage = 0u;
reply->mutable_data()->Reserve( (int)packageSize );
// Stream until you've reached the package size or total cell count. Whatever comes first.
// If you've reached the package size you'll come back for another round.
for ( ; indexInPackage < packageSize && m_currentCellIdx < m_activeCellInfo->reservoirCellCount(); ++indexInPackage )
{
rips::CellInfo singleCellInfo;
grpc::Status singleCellInfoStatus = assignNextActiveCellInfoData( &singleCellInfo );
if ( singleCellInfoStatus.ok() )
{
rips::CellInfo* allocCellInfo = reply->add_data();
*allocCellInfo = singleCellInfo;
}
else
{
break;
}
}
if ( indexInPackage > 0u )
{
return Status::OK;
}
return Status( grpc::OUT_OF_RANGE, "We've reached the end. This is not an error but means transmission is finished" );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
grpc::Status RiaActiveCellInfoStateHandler::assignNextActiveCellCenter( rips::Vec3d* cellCenter )
{
const std::vector<RigCell>& reservoirCells = m_eclipseCase->eclipseCaseData()->mainGrid()->reservoirCells();
while ( m_currentCellIdx < reservoirCells.size() )
{
size_t cellIdxToTry = m_currentCellIdx++;
if ( m_activeCellInfo->isActive( cellIdxToTry ) )
{
assignCellCenter( cellCenter, reservoirCells, cellIdxToTry );
return grpc::Status::OK;
}
}
return Status( grpc::OUT_OF_RANGE, "We've reached the end. This is not an error but means transmission is finished" );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RiaActiveCellInfoStateHandler::assignCellCenter( rips::Vec3d* cellCenter,
const std::vector<RigCell>& reservoirCells,
size_t cellIdx )
{
cvf::Vec3d center = reservoirCells[cellIdx].center();
RiaGrpcHelper::convertVec3dToPositiveDepth( &center );
cellCenter->set_x( center.x() );
cellCenter->set_y( center.y() );
cellCenter->set_z( center.z() );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
grpc::Status RiaActiveCellInfoStateHandler::assignCellCentersReply( rips::CellCenters* reply )
{
const size_t packageSize = RiaGrpcHelper::numberOfDataUnitsInPackage( sizeof( rips::Vec3d ) );
size_t indexInPackage = 0u;
reply->mutable_centers()->Reserve( (int)packageSize );
for ( ; indexInPackage < packageSize && m_currentCellIdx < m_activeCellInfo->reservoirCellCount(); ++indexInPackage )
{
rips::Vec3d singleCellCenter;
grpc::Status singleCellCenterStatus = assignNextActiveCellCenter( &singleCellCenter );
if ( singleCellCenterStatus.ok() )
{
rips::Vec3d* allocCellCenter = reply->add_centers();
*allocCellCenter = singleCellCenter;
}
else
{
break;
}
}
if ( indexInPackage > 0u )
{
return Status::OK;
}
return Status( grpc::OUT_OF_RANGE, "We've reached the end. This is not an error but means transmission is finished" );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
Status RiaActiveCellInfoStateHandler::assignNextActiveCellCorners( rips::CellCorners* cellCorners )
{
const std::vector<RigCell>& reservoirCells = m_eclipseCase->eclipseCaseData()->mainGrid()->reservoirCells();
while ( m_currentCellIdx < reservoirCells.size() )
{
size_t cellIdxToTry = m_currentCellIdx++;
if ( m_activeCellInfo->isActive( cellIdxToTry ) )
{
assignCellCorners( cellCorners, reservoirCells, cellIdxToTry );
return grpc::Status::OK;
}
}
return Status( grpc::OUT_OF_RANGE, "We've reached the end. This is not an error but means transmission is finished" );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RiaActiveCellInfoStateHandler::assignCellCorners( rips::CellCorners* corners,
const std::vector<RigCell>& reservoirCells,
size_t cellIdx )
{
cvf::Vec3d cornerVerts[8];
RigGridBase* grid = m_eclipseCase->eclipseCaseData()->mainGrid();
grid->cellCornerVertices( cellIdx, cornerVerts );
for ( cvf::Vec3d& corner : cornerVerts )
{
RiaGrpcHelper::convertVec3dToPositiveDepth( &corner );
}
RiaGrpcHelper::setCornerValues( corners->mutable_c0(), cornerVerts[0] );
RiaGrpcHelper::setCornerValues( corners->mutable_c1(), cornerVerts[1] );
RiaGrpcHelper::setCornerValues( corners->mutable_c2(), cornerVerts[2] );
RiaGrpcHelper::setCornerValues( corners->mutable_c3(), cornerVerts[3] );
RiaGrpcHelper::setCornerValues( corners->mutable_c4(), cornerVerts[4] );
RiaGrpcHelper::setCornerValues( corners->mutable_c5(), cornerVerts[5] );
RiaGrpcHelper::setCornerValues( corners->mutable_c6(), cornerVerts[6] );
RiaGrpcHelper::setCornerValues( corners->mutable_c7(), cornerVerts[7] );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
Status RiaActiveCellInfoStateHandler::assignCellCornersReply( rips::CellCornersArray* reply )
{
const size_t packageSize = RiaGrpcHelper::numberOfDataUnitsInPackage( sizeof( rips::CellCorners ) );
size_t indexInPackage = 0u;
reply->mutable_cells()->Reserve( (int)packageSize );
for ( ; indexInPackage < packageSize && m_currentCellIdx < m_activeCellInfo->reservoirCellCount(); ++indexInPackage )
{
rips::CellCorners singleCellCorners;
grpc::Status singleCellCornersStatus = assignNextActiveCellCorners( &singleCellCorners );
if ( singleCellCornersStatus.ok() )
{
rips::CellCorners* allocCellCorners = reply->add_cells();
*allocCellCorners = singleCellCorners;
}
else
{
break;
}
}
if ( indexInPackage > 0u )
{
return Status::OK;
}
return Status( grpc::OUT_OF_RANGE, "We've reached the end. This is not an error but means transmission is finished" );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
grpc::Status RiaGrpcCaseService::GetGridCount( grpc::ServerContext* context,
const rips::CaseRequest* request,
rips::GridCount* reply )
{
RimCase* rimCase = RiaGrpcHelper::findCase( request->id() );
RimEclipseCase* eclipseCase = dynamic_cast<RimEclipseCase*>( rimCase );
if ( eclipseCase )
{
int gridCount = (int)eclipseCase->mainGrid()->gridCount();
reply->set_count( gridCount );
return Status::OK;
}
return grpc::Status( grpc::NOT_FOUND, "Eclipse Case not found" );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
grpc::Status RiaGrpcCaseService::GetCellCount( grpc::ServerContext* context,
const rips::CellInfoRequest* request,
rips::CellCount* reply )
{
RimCase* rimCase = RiaGrpcHelper::findCase( request->case_request().id() );
RimEclipseCase* eclipseCase = dynamic_cast<RimEclipseCase*>( rimCase );
if ( eclipseCase )
{
auto porosityModel = RiaDefines::PorosityModelType( request->porosity_model() );
RigActiveCellInfo* activeCellInfo = eclipseCase->eclipseCaseData()->activeCellInfo( porosityModel );
reply->set_active_cell_count( (int)activeCellInfo->reservoirActiveCellCount() );
reply->set_reservoir_cell_count( (int)activeCellInfo->reservoirCellCount() );
return grpc::Status::OK;
}
return grpc::Status( grpc::NOT_FOUND, "Eclipse Case not found" );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
grpc::Status RiaGrpcCaseService::GetTimeSteps( grpc::ServerContext* context,
const rips::CaseRequest* request,
rips::TimeStepDates* reply )
{
RimCase* rimCase = RiaGrpcHelper::findCase( request->id() );
if ( rimCase )
{
std::vector<QDateTime> timeStepDates = rimCase->timeStepDates();
for ( QDateTime dateTime : timeStepDates )
{
rips::TimeStepDate* date = reply->add_dates();
date->set_year( dateTime.date().year() );
date->set_month( dateTime.date().month() );
date->set_day( dateTime.date().day() );
date->set_hour( dateTime.time().hour() );
date->set_minute( dateTime.time().minute() );
date->set_second( dateTime.time().second() );
}
return grpc::Status::OK;
}
return grpc::Status( grpc::NOT_FOUND, "Case not found" );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
grpc::Status RiaGrpcCaseService::GetDaysSinceStart( grpc::ServerContext* context,
const rips::CaseRequest* request,
rips::DaysSinceStart* reply )
{
RimCase* rimCase = RiaGrpcHelper::findCase( request->id() );
RimEclipseCase* eclipseCase = dynamic_cast<RimEclipseCase*>( rimCase );
if ( eclipseCase )
{
RigEclipseResultAddress addrToMaxTimeStepCountResult;
if ( eclipseCase && eclipseCase->eclipseCaseData() )
{
eclipseCase->eclipseCaseData()
->results( RiaDefines::PorosityModelType::MATRIX_MODEL )
->maxTimeStepCount( &addrToMaxTimeStepCountResult );
if ( !addrToMaxTimeStepCountResult.isValid() )
{
return grpc::Status( grpc::NOT_FOUND, "Invalid result. No time steps found." );
}
}
std::vector<double> daysSinceSimulationStart = eclipseCase->eclipseCaseData()
->results( RiaDefines::PorosityModelType::MATRIX_MODEL )
->daysSinceSimulationStart( addrToMaxTimeStepCountResult );
for ( auto days : daysSinceSimulationStart )
{
reply->add_day_decimals( days );
}
return grpc::Status::OK;
}
return grpc::Status( grpc::NOT_FOUND, "Eclipse Case not found" );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
grpc::Status
RiaGrpcCaseService::GetCaseInfo( grpc::ServerContext* context, const rips::CaseRequest* request, rips::CaseInfo* reply )
{
RimCase* rimCase = RiaGrpcHelper::findCase( request->id() );
if ( rimCase )
{
qint64 caseId = rimCase->caseId();
qint64 caseGroupId = -1;
QString caseName, caseType;
RiaSocketTools::getCaseInfoFromCase( rimCase, caseId, caseName, caseType, caseGroupId );
reply->set_id( caseId );
reply->set_group_id( caseGroupId );
reply->set_name( caseName.toStdString() );
reply->set_type( caseType.toStdString() );
return Status::OK;
}
return Status( grpc::NOT_FOUND, "Case not found" );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
grpc::Status RiaGrpcCaseService::GetPdmObject( grpc::ServerContext* context,
const rips::CaseRequest* request,
rips::PdmObject* reply )
{
RimCase* rimCase = RiaGrpcHelper::findCase( request->id() );
if ( rimCase )
{
copyPdmObjectFromCafToRips( rimCase, reply );
}
return grpc::Status::OK;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
grpc::Status RiaGrpcCaseService::GetCellInfoForActiveCells( grpc::ServerContext* context,
const rips::CellInfoRequest* request,
rips::CellInfoArray* reply,
RiaActiveCellInfoStateHandler* stateHandler )
{
return stateHandler->assignReply( reply );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
grpc::Status RiaGrpcCaseService::GetCellCenterForActiveCells( grpc::ServerContext* context,
const rips::CellInfoRequest* request,
rips::CellCenters* reply,
RiaActiveCellInfoStateHandler* stateHandler )
{
return stateHandler->assignCellCentersReply( reply );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
grpc::Status RiaGrpcCaseService::GetCellCornersForActiveCells( grpc::ServerContext* context,
const rips::CellInfoRequest* request,
rips::CellCornersArray* reply,
RiaActiveCellInfoStateHandler* stateHandler )
{
return stateHandler->assignCellCornersReply( reply );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
RiaSelectedCellsStateHandler::RiaSelectedCellsStateHandler()
: m_request( nullptr )
, m_eclipseCase( nullptr )
, m_currentItem( 0u )
{
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
Status RiaSelectedCellsStateHandler::init( const rips::CaseRequest* request )
{
CAF_ASSERT( request );
m_request = request;
RimCase* rimCase = RiaGrpcHelper::findCase( m_request->id() );
m_eclipseCase = dynamic_cast<RimEclipseCase*>( rimCase );
if ( !m_eclipseCase )
{
return grpc::Status( grpc::NOT_FOUND, "Eclipse Case not found" );
}
if ( !m_eclipseCase->eclipseCaseData() || !m_eclipseCase->eclipseCaseData()->mainGrid() )
{
return grpc::Status( grpc::NOT_FOUND, "Eclipse Case Data not found" );
}
return grpc::Status::OK;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
Status RiaSelectedCellsStateHandler::assignNextSelectedCell( rips::SelectedCell* cell,
const std::vector<RiuEclipseSelectionItem*>& items )
{
while ( m_currentItem < items.size() )
{
size_t itemToTry = m_currentItem++;
const RiuEclipseSelectionItem* item = items[itemToTry];
CVF_ASSERT( item->type() == RiuSelectionItem::ECLIPSE_SELECTION_OBJECT );
assignSelectedCell( cell, item );
return grpc::Status::OK;
}
return Status( grpc::OUT_OF_RANGE, "We've reached the end. This is not an error but means transmission is finished" );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RiaSelectedCellsStateHandler::assignSelectedCell( rips::SelectedCell* cell, const RiuEclipseSelectionItem* item )
{
CVF_ASSERT( item->type() == RiuSelectionItem::ECLIPSE_SELECTION_OBJECT );
size_t i = -1;
size_t j = -1;
size_t k = -1;
item->m_resultDefinition->eclipseCase()
->eclipseCaseData()
->grid( item->m_gridIndex )
->ijkFromCellIndex( item->m_gridLocalCellIndex, &i, &j, &k );
cell->set_grid_index( item->m_gridIndex );
rips::Vec3i* ijk = new rips::Vec3i;
ijk->set_i( (int)i );
ijk->set_j( (int)j );
ijk->set_k( (int)k );
cell->set_allocated_ijk( ijk );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
grpc::Status RiaSelectedCellsStateHandler::assignReply( rips::SelectedCells* reply )
{
std::vector<RiuSelectionItem*> items;
Riu3dSelectionManager::instance()->selectedItems( items );
// Only eclipse cases are currently supported. Also filter by case.
std::vector<RiuEclipseSelectionItem*> eclipseItems;
for ( auto item : items )
{
RiuEclipseSelectionItem* eclipseItem = dynamic_cast<RiuEclipseSelectionItem*>( item );
if ( eclipseItem && eclipseItem->m_resultDefinition->eclipseCase()->caseId() == m_request->id() )
{
eclipseItems.push_back( eclipseItem );
}
}
const size_t packageSize = RiaGrpcHelper::numberOfDataUnitsInPackage( sizeof( rips::SelectedCell ) );
size_t indexInPackage = 0u;
reply->mutable_cells()->Reserve( (int)packageSize );
for ( ; indexInPackage < packageSize && m_currentItem < eclipseItems.size(); ++indexInPackage )
{
rips::SelectedCell singleSelectedCell;
grpc::Status singleSelectedCellStatus = assignNextSelectedCell( &singleSelectedCell, eclipseItems );
if ( singleSelectedCellStatus.ok() )
{
rips::SelectedCell* allocSelectedCell = reply->add_cells();
*allocSelectedCell = singleSelectedCell;
}
else
{
break;
}
}
if ( indexInPackage > 0u )
{
return Status::OK;
}
return Status( grpc::OUT_OF_RANGE, "We've reached the end. This is not an error but means transmission is finished" );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
grpc::Status RiaGrpcCaseService::GetSelectedCells( grpc::ServerContext* context,
const rips::CaseRequest* request,
rips::SelectedCells* reply,
RiaSelectedCellsStateHandler* stateHandler )
{
return stateHandler->assignReply( reply );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
grpc::Status RiaGrpcCaseService::GetReservoirBoundingBox( grpc::ServerContext* context,
const rips::CaseRequest* request,
rips::BoundingBox* reply )
{
RimCase* rimCase = RiaGrpcHelper::findCase( request->id() );
if ( rimCase )
{
cvf::BoundingBox boundingBox = rimCase->reservoirBoundingBox();
reply->set_min_x( boundingBox.min().x() );
reply->set_min_y( boundingBox.min().y() );
reply->set_min_z( boundingBox.min().z() );
reply->set_max_x( boundingBox.max().x() );
reply->set_max_y( boundingBox.max().y() );
reply->set_max_z( boundingBox.max().z() );
return Status::OK;
}
return Status( grpc::NOT_FOUND, "Case not found" );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
grpc::Status RiaGrpcCaseService::GetCoarseningInfoArray( grpc::ServerContext* context,
const rips::CaseRequest* request,
rips::CoarseningInfoArray* reply )
{
RimEclipseCase* rimCase = dynamic_cast<RimEclipseCase*>( RiaGrpcHelper::findCase( request->id() ) );
if ( rimCase && rimCase->eclipseCaseData() && rimCase->eclipseCaseData()->mainGrid() )
{
for ( size_t gridIdx = 0; gridIdx < rimCase->eclipseCaseData()->gridCount(); gridIdx++ )
{
RigGridBase* grid = rimCase->eclipseCaseData()->grid( gridIdx );
size_t localCoarseningBoxCount = grid->coarseningBoxCount();
for ( size_t boxIdx = 0; boxIdx < localCoarseningBoxCount; boxIdx++ )
{
size_t i1, i2, j1, j2, k1, k2;
grid->coarseningBox( boxIdx, &i1, &i2, &j1, &j2, &k1, &k2 );
rips::CoarseningInfo* coarseningInfo = reply->add_data();
rips::Vec3i* min = new rips::Vec3i;
min->set_i( (int)i1 );
min->set_j( (int)j1 );
min->set_k( (int)k1 );
coarseningInfo->set_allocated_min( min );
rips::Vec3i* max = new rips::Vec3i;
max->set_i( (int)i2 );
max->set_j( (int)j2 );
max->set_k( (int)k2 );
coarseningInfo->set_allocated_max( max );
}
}
return Status::OK;
}
return Status( grpc::NOT_FOUND, "Case not found" );
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
std::vector<RiaGrpcCallbackInterface*> RiaGrpcCaseService::createCallbacks()
{
typedef RiaGrpcCaseService Self;
return { new RiaGrpcUnaryCallback<Self, CaseRequest, GridCount>( this, &Self::GetGridCount, &Self::RequestGetGridCount ),
new RiaGrpcUnaryCallback<Self, CellInfoRequest, CellCount>( this, &Self::GetCellCount, &Self::RequestGetCellCount ),
new RiaGrpcUnaryCallback<Self, CaseRequest, TimeStepDates>( this, &Self::GetTimeSteps, &Self::RequestGetTimeSteps ),
new RiaGrpcUnaryCallback<Self, CaseRequest, DaysSinceStart>( this,
&Self::GetDaysSinceStart,
&Self::RequestGetDaysSinceStart ),
new RiaGrpcUnaryCallback<Self, CaseRequest, CaseInfo>( this, &Self::GetCaseInfo, &Self::RequestGetCaseInfo ),
new RiaGrpcUnaryCallback<Self, CaseRequest, PdmObject>( this, &Self::GetPdmObject, &Self::RequestGetPdmObject ),
new RiaGrpcServerToClientStreamCallback<Self,
CellInfoRequest,
CellInfoArray,
RiaActiveCellInfoStateHandler>( this,
&Self::GetCellInfoForActiveCells,
&Self::RequestGetCellInfoForActiveCells,
new RiaActiveCellInfoStateHandler ),
new RiaGrpcServerToClientStreamCallback<Self,
CellInfoRequest,
CellCenters,
RiaActiveCellInfoStateHandler>( this,
&Self::GetCellCenterForActiveCells,
&Self::RequestGetCellCenterForActiveCells,
new RiaActiveCellInfoStateHandler ),
new RiaGrpcServerToClientStreamCallback<Self,
CellInfoRequest,
CellCornersArray,
RiaActiveCellInfoStateHandler>( this,
&Self::GetCellCornersForActiveCells,
&Self::RequestGetCellCornersForActiveCells,
new RiaActiveCellInfoStateHandler ),
new RiaGrpcServerToClientStreamCallback<Self,
CaseRequest,
SelectedCells,
RiaSelectedCellsStateHandler>( this,
&Self::GetSelectedCells,
&Self::RequestGetSelectedCells,
new RiaSelectedCellsStateHandler ),
new RiaGrpcUnaryCallback<Self, CaseRequest, BoundingBox>( this,
&Self::GetReservoirBoundingBox,
&Self::RequestGetReservoirBoundingBox ),
new RiaGrpcUnaryCallback<Self, CaseRequest, CoarseningInfoArray>( this,
&Self::GetCoarseningInfoArray,
&Self::RequestGetCoarseningInfoArray ) };
}
static bool RiaGrpcCaseService_init =
RiaGrpcServiceFactory::instance()->registerCreator<RiaGrpcCaseService>( typeid( RiaGrpcCaseService ).hash_code() );