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35dff82700
return messages and opmLog.
687 lines
28 KiB
C++
687 lines
28 KiB
C++
/*
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Copyright 2015 Statoil ASA.
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This file is part of the Open Porous Media project (OPM).
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OPM is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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OPM is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with OPM. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <opm/core/props/satfunc/RelpermDiagnostics.hpp>
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#include <opm/material/fluidmatrixinteractions/EclEpsScalingPoints.hpp>
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namespace Opm{
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RelpermDiagnostics::RelpermDiagnostics(std::string& logFile)
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{
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streamLog_ = std::make_shared<Opm::StreamLog>(logFile, Opm::Log::DefaultMessageTypes);
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}
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void RelpermDiagnostics::diagnosis(Opm::EclipseStateConstPtr eclState,
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Opm::DeckConstPtr deck,
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const UnstructuredGrid& grid)
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{
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std::cout << "***************Relperm Diagnostics***************\n";
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phaseCheck_(deck);
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satFamilyCheck_(eclState);
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tableCheck_(eclState, deck);
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unscaledEndPointsCheck_(deck, eclState);
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scaledEndPointsCheck_(deck, eclState, grid);
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if (!messages_.empty()) {
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std::sort(messages_.begin(), messages_.end());
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auto it = std::unique(messages_.begin(), messages_.end());
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messages_.erase(it, messages_.end());
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int counter = 1;
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std::cout << "***************\nProblem found:\n";
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for (const auto& x : messages_) {
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std::cout << counter << ". " << x << std::endl;
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counter++;
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}
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} else {
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std::cout << "****************\nConsistency check all passed!" << std::endl;
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}
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std::cout << "********************************************************\n";
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}
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std::shared_ptr<Opm::StreamLog>
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RelpermDiagnostics::getOpmLog() const
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{
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return streamLog_;
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}
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std::vector<std::string>
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RelpermDiagnostics::getMessages() const
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{
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return messages_;
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}
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void RelpermDiagnostics::phaseCheck_(DeckConstPtr deck)
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{
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bool hasWater = deck->hasKeyword("WATER");
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bool hasGas = deck->hasKeyword("GAS");
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bool hasOil = deck->hasKeyword("OIL");
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if (hasWater && hasGas && !hasOil) {
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std::string msg = "System: Water-Gas system.";
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std::cout << msg << std::endl;
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streamLog_->addMessage(Log::MessageType::Info, msg);
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fluidSystem_ = FluidSystem::WaterGas;
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}
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if (hasWater && hasOil && !hasGas) {
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std::string msg = "System: Oil-Water system.";
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std::cout << msg << std::endl;
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streamLog_->addMessage(Log::MessageType::Info, msg);
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fluidSystem_ = FluidSystem::OilWater;
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}
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if (hasOil && hasGas && !hasWater) {
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std::string msg = "System: Oil-Gas system.";
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std::cout << msg << std::endl;
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streamLog_->addMessage(Log::MessageType::Info, msg);
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fluidSystem_ = FluidSystem::OilGas;
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}
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if (hasOil && hasWater && hasGas) {
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std::string msg = "System: Black-oil system.";
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std::cout << msg << std::endl;
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streamLog_->addMessage(Log::MessageType::Info, msg);
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fluidSystem_ = FluidSystem::BlackOil;
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}
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}
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void RelpermDiagnostics::satFamilyCheck_(Opm::EclipseStateConstPtr eclState)
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{
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const auto& tableManager = eclState->getTableManager();
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const TableContainer& swofTables = tableManager->getSwofTables();
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const TableContainer& slgofTables= tableManager->getSlgofTables();
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const TableContainer& sgofTables = tableManager->getSgofTables();
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const TableContainer& swfnTables = tableManager->getSwfnTables();
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const TableContainer& sgfnTables = tableManager->getSgfnTables();
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const TableContainer& sof3Tables = tableManager->getSof3Tables();
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const TableContainer& sof2Tables = tableManager->getSof2Tables();
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const TableContainer& sgwfnTables= tableManager->getSgwfnTables();
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bool family1 = (!sgofTables.empty() || !slgofTables.empty()) && !swofTables.empty();
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bool family2 = !swfnTables.empty() && !sgfnTables.empty() && (!sof3Tables.empty() || !sof2Tables.empty()) && !sgwfnTables.empty();
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if (family1 && family2) {
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std::string msg = "Saturation families should not be mixed.\n Use either SGOF and SWOF or SGFN, SWFN and SOF3.";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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if (!family1 && !family2) {
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std::string msg = "Saturations function must be specified using either \n \
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family 1 or family 2 keywords \n \
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Use either SGOF and SWOF or SGFN, SWFN and SOF3.";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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if (family1 && !family2) {
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satFamily_ = SaturationFunctionFamily::FamilyI;
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std::string msg = "relperm: Saturation Family I.";
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std::cout << msg << std::endl;
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streamLog_->addMessage(Log::MessageType::Info, msg);
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}
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if (!family1 && family2) {
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satFamily_ = SaturationFunctionFamily::FamilyII;
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std::string msg = "relperm: Saturation Family II.";
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std::cout << msg << std::endl;
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streamLog_->addMessage(Log::MessageType::Info, msg);
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}
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}
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void RelpermDiagnostics::tableCheck_(EclipseStateConstPtr eclState,
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DeckConstPtr deck)
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{
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int numSatRegions = deck->getKeyword("TABDIMS")->getRecord(0)->getItem("NTSFUN")->getInt(0);
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const auto& tableManager = eclState->getTableManager();
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const TableContainer& swofTables = tableManager->getSwofTables();
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const TableContainer& slgofTables= tableManager->getSlgofTables();
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const TableContainer& sgofTables = tableManager->getSgofTables();
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const TableContainer& swfnTables = tableManager->getSwfnTables();
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const TableContainer& sgfnTables = tableManager->getSgfnTables();
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const TableContainer& sof3Tables = tableManager->getSof3Tables();
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const TableContainer& sof2Tables = tableManager->getSof2Tables();
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const TableContainer& sgwfnTables= tableManager->getSgwfnTables();
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for (int satnumIdx = 0; satnumIdx < numSatRegions; ++satnumIdx) {
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if (deck->hasKeyword("SWOF")) {
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swofTableCheck_(swofTables.getTable<SwofTable>(satnumIdx));
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}
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if (deck->hasKeyword("SGOF")) {
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sgofTableCheck_(sgofTables.getTable<SgofTable>(satnumIdx));
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}
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if (deck->hasKeyword("SLGOF")) {
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slgofTableCheck_(slgofTables.getTable<SlgofTable>(satnumIdx));
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}
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if (deck->hasKeyword("SWFN")) {
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swfnTableCheck_(swfnTables.getTable<SwfnTable>(satnumIdx));
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}
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if (deck->hasKeyword("SGFN")) {
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sgfnTableCheck_(sgfnTables.getTable<SgfnTable>(satnumIdx));
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}
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if (deck->hasKeyword("SOF3")) {
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sof3TableCheck_(sof3Tables.getTable<Sof3Table>(satnumIdx));
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}
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if (deck->hasKeyword("SOF2")) {
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sof2TableCheck_(sof2Tables.getTable<Sof2Table>(satnumIdx));
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}
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if (deck->hasKeyword("SGWFN")) {
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sgwfnTableCheck_(sgwfnTables.getTable<SgwfnTable>(satnumIdx));
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}
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}
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}
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void RelpermDiagnostics::swofTableCheck_(const Opm::SwofTable& swofTables)
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{
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const auto& sw = swofTables.getSwColumn();
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const auto& krw = swofTables.getKrwColumn();
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const auto& krow = swofTables.getKrowColumn();
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///Check sw column.
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if (sw.front() < 0.0 || sw.back() > 1.0) {
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std::string msg = "Error: In SWOF table, saturation should be in range [0,1].";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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///TODO check endpoint sw.back() == 1. - Sor.
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///Check krw column.
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if (krw.front() != 0.0) {
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std::string msg = "Error: In SWOF table, first value of krw should be 0.";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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if (krw.front() < 0.0 || krw.back() > 1.0) {
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std::string msg = "Error: In SWOF table, krw should be in range [0,1].";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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///Check krow column.
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if (krow.front() > 1.0 || krow.back() < 0.0) {
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std::string msg = "Error: In SWOF table, krow should be in range [0, 1].";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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///TODO check if run with gas.
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}
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void RelpermDiagnostics::sgofTableCheck_(const Opm::SgofTable& sgofTables)
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{
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const auto& sg = sgofTables.getSgColumn();
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const auto& krg = sgofTables.getKrgColumn();
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const auto& krog = sgofTables.getKrogColumn();
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///Check sw column.
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if (sg.front() < 0.0 || sg.back() > 1.0) {
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std::string msg = "Error: In SGOF table, saturation should be in range [0,1].";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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if (sg.front() != 0.0) {
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std::string msg = "Error: In SGOF table, first value of sg should be 0.";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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///TODO check endpoint sw.back() == 1. - Sor.
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///Check krw column.
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if (krg.front() != 0.0) {
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std::string msg = "Error: In SGOF table, first value of krg should be 0.";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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if (krg.front() < 0.0 || krg.back() > 1.0) {
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std::string msg = "Error: In SGOF table, krg should be in range [0,1].";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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///Check krow column.
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if (krog.front() > 1.0 || krog.back() < 0.0) {
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std::string msg = "Error: In SGOF table, krog should be in range [0, 1].";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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///TODO check if run with water.
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}
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void RelpermDiagnostics::slgofTableCheck_(const Opm::SlgofTable& slgofTables)
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{
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const auto& sl = slgofTables.getSlColumn();
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const auto& krg = slgofTables.getKrgColumn();
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const auto& krog = slgofTables.getKrogColumn();
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///Check sl column.
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///TODO first value means sl = swco + sor
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if (sl.front() < 0.0 || sl.back() > 1.0) {
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std::string msg = "Error: In SLGOF table, saturation should be in range [0,1].";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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if (sl.back() != 1.0) {
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std::string msg = "Error: In SLGOF table, last value of sl should be 1.";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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if (krg.front() > 1.0 || krg.back() < 0) {
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std::string msg = "Error: In SLGOF table, krg shoule be in range [0, 1].";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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if (krg.back() != 0.0) {
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std::string msg = "Error: In SLGOF table, last value of krg hould be 0.";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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if (krog.front() < 0.0 || krog.back() > 1.0) {
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std::string msg = "Error: In SLGOF table, krog shoule be in range [0, 1].";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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}
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void RelpermDiagnostics::swfnTableCheck_(const Opm::SwfnTable& swfnTables)
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{
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const auto& sw = swfnTables.getSwColumn();
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const auto& krw = swfnTables.getKrwColumn();
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///Check sw column.
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if (sw.front() < 0.0 || sw.back() > 1.0) {
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std::string msg = "Error: In SWFN table, saturation should be in range [0,1].";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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///Check krw column.
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if (krw.front() < 0.0 || krw.back() > 1.0) {
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std::string msg = "Error: In SWFN table, krw should be in range [0,1].";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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if (krw.front() != 0.0) {
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std::string msg = "Error: In SWFN table, first value of krw should be 0.";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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}
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void RelpermDiagnostics::sgfnTableCheck_(const Opm::SgfnTable& sgfnTables)
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{
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const auto& sg = sgfnTables.getSgColumn();
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const auto& krg = sgfnTables.getKrgColumn();
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///Check sg column.
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if (sg.front() < 0.0 || sg.back() > 1.0) {
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std::string msg = "Error: In SGFN table, saturation should be in range [0,1].";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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///Check krg column.
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if (krg.front() < 0.0 || krg.back() > 1.0) {
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std::string msg = "Error: In SGFN table, krg should be in range [0,1].";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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if (krg.front() != 0.0) {
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std::string msg = "Error: In SGFN table, first value of krg should be 0.";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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}
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void RelpermDiagnostics::sof3TableCheck_(const Opm::Sof3Table& sof3Tables)
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{
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const auto& so = sof3Tables.getSoColumn();
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const auto& krow = sof3Tables.getKrowColumn();
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const auto& krog = sof3Tables.getKrogColumn();
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///Check so column.
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///TODO: The max so = 1 - Swco
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if (so.front() < 0.0 || so.back() > 1.0) {
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std::string msg = "Error: In SOF3 table, saturation should be in range [0,1].";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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///Check krow column.
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if (krow.front() < 0.0 || krow.back() > 1.0) {
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std::string msg = "Error: In SOF3 table, krow should be in range [0,1].";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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if (krow.front() != 0.0) {
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std::string msg = "Error: In SOF3 table, first value of krow should be 0.";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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///Check krog column.
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if (krog.front() < 0.0 || krog.back() > 1.0) {
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std::string msg = "Error: In SOF3 table, krog should be in range [0,1].";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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if (krog.front() != 0.0) {
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std::string msg = "Error: In SOF3 table, first value of krog should be 0.";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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if (krog.back() != krow.back()) {
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std::string msg = "Error: In SOF3 table, max value of krog and krow should be the same.";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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}
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void RelpermDiagnostics::sof2TableCheck_(const Opm::Sof2Table& sof2Tables)
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{
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const auto& so = sof2Tables.getSoColumn();
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const auto& kro = sof2Tables.getKroColumn();
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///Check so column.
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///TODO: The max so = 1 - Swco
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if (so.front() < 0.0 || so.back() > 1.0) {
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std::string msg = "Error: In SOF2 table, saturation should be in range [0,1].";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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///Check krow column.
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if (kro.front() < 0.0 || kro.back() > 1.0) {
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std::string msg = "Error: In SOF2 table, krow should be in range [0,1].";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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if (kro.front() != 0.0) {
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std::string msg = "Error: In SOF2 table, first value of krow should be 0.";
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messages_.push_back(msg);
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streamLog_->addMessage(Log::MessageType::Error, msg);
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}
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}
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void RelpermDiagnostics::sgwfnTableCheck_(const Opm::SgwfnTable& sgwfnTables)
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{
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const auto& sg = sgwfnTables.getSgColumn();
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const auto& krg = sgwfnTables.getKrgColumn();
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const auto& krgw = sgwfnTables.getKrgwColumn();
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|
|
///Check sg column.
|
|
if (sg.front() < 0.0 || sg.back() > 1.0) {
|
|
std::string msg = "Error: In SGWFN table, saturation should be in range [0,1].";
|
|
messages_.push_back(msg);
|
|
streamLog_->addMessage(Log::MessageType::Error, msg);
|
|
}
|
|
|
|
///Check krg column.
|
|
if (krg.front() < 0.0 || krg.back() > 1.0) {
|
|
std::string msg = "Error: In SGWFN table, krg should be in range [0,1].";
|
|
messages_.push_back(msg);
|
|
streamLog_->addMessage(Log::MessageType::Error, msg);
|
|
}
|
|
if (krg.front() != 0.0) {
|
|
std::string msg = "Error: In SGWFN table, first value of krg should be 0.";
|
|
messages_.push_back(msg);
|
|
streamLog_->addMessage(Log::MessageType::Error, msg);
|
|
}
|
|
|
|
///Check krgw column.
|
|
///TODO check saturation sw = 1. - sg
|
|
if (krgw.front() > 1.0 || krgw.back() < 0.0) {
|
|
std::string msg = "Error: In SGWFN table, krgw should be in range [0,1].";
|
|
messages_.push_back(msg);
|
|
streamLog_->addMessage(Log::MessageType::Error, msg);
|
|
}
|
|
if (krgw.back() != 0.0) {
|
|
std::string msg = "Error: In SGWFN table, last value of krgw should be 0.";
|
|
messages_.push_back(msg);
|
|
streamLog_->addMessage(Log::MessageType::Error, msg);
|
|
}
|
|
}
|
|
|
|
|
|
|
|
|
|
void RelpermDiagnostics::unscaledEndPointsCheck_(DeckConstPtr deck,
|
|
EclipseStateConstPtr eclState)
|
|
{
|
|
// get the number of saturation regions and the number of cells in the deck
|
|
int numSatRegions = deck->getKeyword("TABDIMS")->getRecord(0)->getItem("NTSFUN")->getInt(0);
|
|
unscaledEpsInfo_.resize(numSatRegions);
|
|
|
|
auto tables = eclState->getTableManager();
|
|
const TableContainer& swofTables = tables->getSwofTables();
|
|
const TableContainer& sgofTables = tables->getSgofTables();
|
|
const TableContainer& slgofTables = tables->getSlgofTables();
|
|
const TableContainer& sof3Tables = tables->getSof3Tables();
|
|
|
|
for (int satnumIdx = 0; satnumIdx < numSatRegions; ++satnumIdx) {
|
|
unscaledEpsInfo_[satnumIdx].extractUnscaled(deck, eclState, satnumIdx);
|
|
std::cout << "***************\nEnd-Points In all the Tables\n";
|
|
unscaledEpsInfo_[satnumIdx].print();
|
|
///Consistency check.
|
|
if (unscaledEpsInfo_[satnumIdx].Sgu > (1. - unscaledEpsInfo_[satnumIdx].Swl)) {
|
|
std::string msg = "Warning: Sgmax should not exceed 1-Swco.";
|
|
messages_.push_back(msg);
|
|
streamLog_->addMessage(Log::MessageType::Warning, msg);
|
|
}
|
|
if (unscaledEpsInfo_[satnumIdx].Sgl > (1. - unscaledEpsInfo_[satnumIdx].Swu)) {
|
|
std::string msg = "Warning: Sgco should not exceed 1-Swmax.";
|
|
messages_.push_back(msg);
|
|
streamLog_->addMessage(Log::MessageType::Warning, msg);
|
|
}
|
|
|
|
///Krow(Sou) == Krog(Sou) for three-phase
|
|
/// means Krow(Swco) == Krog(Sgco)
|
|
double krow_value = 1e20;
|
|
double krog_value = 1e-20;
|
|
if (fluidSystem_ == FluidSystem::BlackOil) {
|
|
if (satFamily_ == SaturationFunctionFamily::FamilyI) {
|
|
if (!sgofTables.empty()) {
|
|
auto sg = sgofTables.getTable<SgofTable>(satnumIdx).getSgColumn();
|
|
auto krog = sgofTables.getTable<SgofTable>(satnumIdx).getKrogColumn();
|
|
krog_value=Opm::linearInterpolation(sg, krog,unscaledEpsInfo_[satnumIdx].Sgl);
|
|
} else {
|
|
assert(!slgofTables.empty());
|
|
auto sl = slgofTables.getTable<SlgofTable>(satnumIdx).getSlColumn();
|
|
auto krog = slgofTables.getTable<SlgofTable>(satnumIdx).getKrogColumn();
|
|
krog_value=Opm::linearInterpolation(sl, krog, unscaledEpsInfo_[satnumIdx].Sgl);
|
|
}
|
|
auto sw = swofTables.getTable<SwofTable>(satnumIdx).getSwColumn();
|
|
auto krow = swofTables.getTable<SwofTable>(satnumIdx).getKrowColumn();
|
|
krow_value = Opm::linearInterpolation(sw, krow,unscaledEpsInfo_[satnumIdx].Swl);
|
|
}
|
|
if (satFamily_ == SaturationFunctionFamily::FamilyII) {
|
|
assert(!sof3Tables.empty());
|
|
const double Sou = 1.- unscaledEpsInfo_[satnumIdx].Swl - unscaledEpsInfo_[satnumIdx].Sgl;
|
|
auto so = sof3Tables.getTable<Sof3Table>(satnumIdx).getSoColumn();
|
|
auto krow = sof3Tables.getTable<Sof3Table>(satnumIdx).getKrowColumn();
|
|
auto krog = sof3Tables.getTable<Sof3Table>(satnumIdx).getKrogColumn();
|
|
krow_value = Opm::linearInterpolation(so, krow, Sou);
|
|
krog_value = Opm::linearInterpolation(so, krog, Sou);
|
|
}
|
|
if (krow_value != krog_value) {
|
|
std::string msg = "Warning: Krow(sSomax) should equal Krog(Somax).";
|
|
messages_.push_back(msg);
|
|
streamLog_->addMessage(Log::MessageType::Warning, msg);
|
|
}
|
|
}
|
|
///Krw(Sw=0)=Krg(Sg=0)=Krow(So=0)=Krog(So=0)=0.
|
|
///Mobile fluid requirements
|
|
if (((unscaledEpsInfo_[satnumIdx].Sowcr + unscaledEpsInfo_[satnumIdx].Swcr)-1) >= 0) {
|
|
std::string msg = "Warning: Sowcr + Swcr should less than 1.";
|
|
messages_.push_back(msg);
|
|
streamLog_->addMessage(Log::MessageType::Warning, msg);
|
|
}
|
|
if (((unscaledEpsInfo_[satnumIdx].Sogcr + unscaledEpsInfo_[satnumIdx].Sgcr + unscaledEpsInfo_[satnumIdx].Swl) - 1 ) > 0) {
|
|
std::string msg = "Warning: Sogcr + Sgcr + Swco should less than 1.";
|
|
messages_.push_back(msg);
|
|
streamLog_->addMessage(Log::MessageType::Warning, msg);
|
|
}
|
|
}
|
|
}
|
|
|
|
|
|
|
|
|
|
|
|
void RelpermDiagnostics::scaledEndPointsCheck_(DeckConstPtr deck,
|
|
EclipseStateConstPtr eclState,
|
|
const UnstructuredGrid& grid)
|
|
{
|
|
const int nc = Opm::UgGridHelpers::numCells(grid);
|
|
std::vector<int> compressedToCartesianIdx(nc);
|
|
const auto& global_cell = Opm::UgGridHelpers::globalCell(grid);
|
|
for (int cell = 0; cell < nc; ++cell) {
|
|
if (global_cell) {
|
|
compressedToCartesianIdx[cell] = global_cell[cell];
|
|
} else {
|
|
compressedToCartesianIdx[cell] = cell;
|
|
}
|
|
}
|
|
scaledEpsInfo_.resize(nc);
|
|
EclEpsGridProperties epsGridProperties;
|
|
epsGridProperties.initFromDeck(deck, eclState, /*imbibition=*/false);
|
|
|
|
for (int c = 0; c < nc; ++c) {
|
|
int cartIdx = compressedToCartesianIdx[c];
|
|
scaledEpsInfo_[c].extractScaled(epsGridProperties, cartIdx);
|
|
|
|
// SGU <= 1.0 - SWL
|
|
if (scaledEpsInfo_[c].Sgu > (1.0 - scaledEpsInfo_[c].Swl)) {
|
|
std::string msg = "Warning: For scaled endpoints input, SGU exceed 1.0 - SWL";
|
|
messages_.push_back(msg);
|
|
streamLog_->addMessage(Log::MessageType::Warning, msg);
|
|
}
|
|
|
|
// SGL <= 1.0 - SWU
|
|
if (scaledEpsInfo_[c].Sgl > (1.0 - scaledEpsInfo_[c].Swu)) {
|
|
std::string msg = "Warning: For scaled endpoints input, SGL exceed 1.0 - SWU";
|
|
messages_.push_back(msg);
|
|
streamLog_->addMessage(Log::MessageType::Warning, msg);
|
|
}
|
|
|
|
if (deck->hasKeyword("SCALECRS") && fluidSystem_ == FluidSystem::BlackOil) {
|
|
// Mobilility check.
|
|
if ((scaledEpsInfo_[c].Sowcr + scaledEpsInfo_[c].Swcr) >= 1.0) {
|
|
std::string msg = "Warning: For scaled endpoints input, SOWCR + SWCR exceed 1.0";
|
|
messages_.push_back(msg);
|
|
streamLog_->addMessage(Log::MessageType::Warning, msg);
|
|
}
|
|
|
|
if ((scaledEpsInfo_[c].Sogcr + scaledEpsInfo_[c].Sgcr + scaledEpsInfo_[c].Swl) >= 1.0) {
|
|
std::string msg = "Warning: For scaled endpoints input, SOGCR + SGCR + SWL exceed 1.0";
|
|
messages_.push_back(msg);
|
|
streamLog_->addMessage(Log::MessageType::Warning, msg);
|
|
}
|
|
}
|
|
///Following rules come from NEXUS.
|
|
if (fluidSystem_ != FluidSystem::WaterGas) {
|
|
if (scaledEpsInfo_[c].Swl > scaledEpsInfo_[c].Swcr) {
|
|
std::string msg = "Warning: For scaled endpoints input, SWL > SWCR";
|
|
messages_.push_back(msg);
|
|
streamLog_->addMessage(Log::MessageType::Warning, msg);
|
|
}
|
|
|
|
if (scaledEpsInfo_[c].Swcr > scaledEpsInfo_[c].Sowcr) {
|
|
std::string msg = "Warning: For scaled endpoints input, SWCR > SOWCR";
|
|
messages_.push_back(msg);
|
|
streamLog_->addMessage(Opm::Log::MessageType::Warning, msg);
|
|
}
|
|
|
|
if (scaledEpsInfo_[c].Sowcr > scaledEpsInfo_[c].Swu) {
|
|
std::string msg = "Warning: For scaled endpoints input, SOWCR > SWU";
|
|
messages_.push_back(msg);
|
|
streamLog_->addMessage(Log::MessageType::Warning, msg);
|
|
}
|
|
}
|
|
|
|
if (fluidSystem_ != FluidSystem::OilWater) {
|
|
if (scaledEpsInfo_[c].Sgl > scaledEpsInfo_[c].Sgcr) {
|
|
std::string msg = "Warning: For scaled endpoints input, SGL > SGCR";
|
|
messages_.push_back(msg);
|
|
streamLog_->addMessage(Log::MessageType::Warning, msg);
|
|
}
|
|
}
|
|
|
|
if (fluidSystem_ != FluidSystem::BlackOil) {
|
|
if (scaledEpsInfo_[c].Sgcr > scaledEpsInfo_[c].Sogcr) {
|
|
std::string msg = "Warning: For scaled endpoints input, SGCR > SOGCR";
|
|
messages_.push_back(msg);
|
|
streamLog_->addMessage(Log::MessageType::Warning, msg);
|
|
}
|
|
|
|
if (scaledEpsInfo_[c].Sogcr > scaledEpsInfo_[c].Sgu) {
|
|
std::string msg = "Warning: For scaled endpoints input, SOGCR > SGU";
|
|
messages_.push_back(msg);
|
|
streamLog_->addMessage(Log::MessageType::Warning, msg);
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
} //namespace Opm
|