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ResInsight/ApplicationCode/Commands/CompletionExportCommands/RicExportCompletionDataSettingsUi.cpp
Gaute Lindkvist 73b79daa09 #3670 Implement new Pressure Depletion behaviour 
* Removed choice of different scaling
* Always use current pressure delta
* Use the maximum of an epsilon value and the absolute value of the matrix to well pressure drop as the scaling factor
* Remove file name suffixes and update information table in export file.
2018-11-13 16:48:30 +01:00

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/////////////////////////////////////////////////////////////////////////////////
//
// Copyright (C) 2017- Statoil 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 "RiaApplication.h"
#include "RicExportCompletionDataSettingsUi.h"
#include "RicExportFractureCompletionsImpl.h"
#include "RimProject.h"
#include "RimWellPath.h"
#include "RimWellPathCompletions.h"
// clang-format off
namespace caf
{
template<>
void RicExportCompletionDataSettingsUi::ExportSplitType::setUp()
{
addItem(RicExportCompletionDataSettingsUi::UNIFIED_FILE, "UNIFIED_FILE", "Unified File");
addItem(RicExportCompletionDataSettingsUi::SPLIT_ON_WELL, "SPLIT_ON_WELL", "Split on Well");
addItem(RicExportCompletionDataSettingsUi::SPLIT_ON_WELL_AND_COMPLETION_TYPE, "SPLIT_ON_WELL_AND_COMPLETION_TYPE", "Split on Well and Completion Type");
setDefault(RicExportCompletionDataSettingsUi::SPLIT_ON_WELL_AND_COMPLETION_TYPE);
}
template<>
void RicExportCompletionDataSettingsUi::CompdatExportType::setUp()
{
addItem(RicExportCompletionDataSettingsUi::TRANSMISSIBILITIES, "TRANSMISSIBILITIES", "Calculated Transmissibilities");
addItem(RicExportCompletionDataSettingsUi::WPIMULT_AND_DEFAULT_CONNECTION_FACTORS, "WPIMULT_AND_DEFAULT_CONNECTION_FACTORS", "Default Connection Factors and WPIMULT (Fractures Not Supported)");
#ifdef _DEBUG
addItem(RicExportCompletionDataSettingsUi::NO_COMPLETIONS, "NO_COMPLETIONS", "None");
#endif
setDefault(RicExportCompletionDataSettingsUi::TRANSMISSIBILITIES);
}
template<>
void RicExportCompletionDataSettingsUi::CombinationModeType::setUp()
{
addItem(RicExportCompletionDataSettingsUi::INDIVIDUALLY, "INDIVIDUALLY", "Individually");
addItem(RicExportCompletionDataSettingsUi::COMBINED, "COMBINED", "Combined");
setDefault(RicExportCompletionDataSettingsUi::INDIVIDUALLY);
}
template<>
void RicExportCompletionDataSettingsUi::TransScalingWBHPSource::setUp()
{
addItem(RicExportFractureCompletionsImpl::WBHP_FROM_SUMMARY, "WBHP_SUMMARY", "WBHP From Summary Case");
addItem(RicExportFractureCompletionsImpl::WBHP_FROM_USER_DEF, "WBHP_USER_DEFINED", "Fixed User Defined WBHP");
setDefault(RicExportFractureCompletionsImpl::WBHP_FROM_SUMMARY);
}
}
// clang-format on
CAF_PDM_SOURCE_INIT(RicExportCompletionDataSettingsUi, "RicExportCompletionDataSettingsUi");
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
RicExportCompletionDataSettingsUi::RicExportCompletionDataSettingsUi()
{
CAF_PDM_InitObject("RimExportCompletionDataSettings", "", "", "");
CAF_PDM_InitFieldNoDefault(&fileSplit, "FileSplit", "File Split", "", "", "");
CAF_PDM_InitFieldNoDefault(&compdatExport, "compdatExport", "Export", "", " ", "");
CAF_PDM_InitField(&timeStep, "TimeStepIndex", 0, " Time Step", "", "", "");
CAF_PDM_InitField(&includeMsw, "IncludeMSW", false, "Include Multi Segment Well Model", "", "", "");
CAF_PDM_InitField(&useLateralNTG, "UseLateralNTG", false, "Use NTG Horizontally", "", "", "");
CAF_PDM_InitField(&includePerforations, "IncludePerforations", true, "Perforations", "", "", "");
CAF_PDM_InitField(&includeFishbones, "IncludeFishbones", true, "Fishbones", "", "", "");
CAF_PDM_InitField(&includeFractures, "IncludeFractures", true, "Fractures", "", "", "");
CAF_PDM_InitField(&performTransScaling, "TransScalingType", false, "Perform Transmissibility Scaling", "", "", "");
CAF_PDM_InitField(&transScalingTimeStep, "TransScalingTimeStep", 0, "Current Time Step", "", "", "");
CAF_PDM_InitFieldNoDefault(&transScalingWBHPSource, "TransScalingWBHPSource", "WBHP Selection", "", "", "");
CAF_PDM_InitField(&transScalingWBHP, "TransScalingWBHP", 200.0, "WBHP Before Production Start", "", "", "");
CAF_PDM_InitField(&excludeMainBoreForFishbones,
"ExcludeMainBoreForFishbones",
false,
" Exclude Main Bore Transmissibility",
"",
"Main bore perforation intervals are defined by start/end MD of each active fishbone sub definition",
"");
CAF_PDM_InitFieldNoDefault(
&m_reportCompletionTypesSeparately, "ReportCompletionTypesSeparately", "Export Completion Types", "", "", "");
m_displayForSimWell = true;
m_fracturesEnabled = true;
m_perforationsEnabled = true;
m_fishbonesEnabled = true;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RicExportCompletionDataSettingsUi::showForSimWells()
{
m_displayForSimWell = true;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RicExportCompletionDataSettingsUi::showForWellPath()
{
m_displayForSimWell = false;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RicExportCompletionDataSettingsUi::setCombinationMode(CombinationMode combinationMode)
{
m_reportCompletionTypesSeparately = combinationMode;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RicExportCompletionDataSettingsUi::showFractureInUi(bool enable)
{
m_fracturesEnabled = enable;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RicExportCompletionDataSettingsUi::showPerforationsInUi(bool enable)
{
m_perforationsEnabled = enable;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RicExportCompletionDataSettingsUi::showFishbonesInUi(bool enable)
{
m_fishbonesEnabled = enable;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
bool RicExportCompletionDataSettingsUi::reportCompletionsTypesIndividually() const
{
return m_reportCompletionTypesSeparately() == INDIVIDUALLY;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RicExportCompletionDataSettingsUi::fieldChangedByUi(const caf::PdmFieldHandle* changedField,
const QVariant& oldValue,
const QVariant& newValue)
{
if (changedField == &compdatExport)
{
if (compdatExport == WPIMULT_AND_DEFAULT_CONNECTION_FACTORS)
{
includeFractures = false;
}
else if (compdatExport == TRANSMISSIBILITIES || includeMsw)
{
includeFractures = true;
}
}
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
QList<caf::PdmOptionItemInfo>
RicExportCompletionDataSettingsUi::calculateValueOptions(const caf::PdmFieldHandle* fieldNeedingOptions, bool* useOptionsOnly)
{
QList<caf::PdmOptionItemInfo> options;
if (fieldNeedingOptions == &timeStep)
{
QStringList timeStepNames;
if (caseToApply)
{
timeStepNames = caseToApply->timeStepStrings();
}
for (int i = 0; i < timeStepNames.size(); i++)
{
options.push_back(caf::PdmOptionItemInfo(timeStepNames[i], i));
}
}
else if (fieldNeedingOptions == &transScalingTimeStep)
{
std::map<int, std::vector<std::pair<QString, QString>>> wellProductionStartStrings = generateWellProductionStartStrings();
QStringList timeStepNames;
if (caseToApply)
{
timeStepNames = caseToApply->timeStepStrings();
}
for (int i = 0; i < timeStepNames.size(); i++)
{
QString timeStepString = timeStepNames[i];
auto it = wellProductionStartStrings.find(i);
if (it != wellProductionStartStrings.end())
{
int numberOfWells = static_cast<int>(it->second.size());
QStringList wellList;
QStringList wellPressureList;
const int maxStringLength = 70;
QString startStringFormat(" [Start: %1]");
for (int w = 0; w < numberOfWells; ++w)
{
QString wellString = it->second[w].first;
QStringList candidateWellList = wellList; candidateWellList << wellString;
if (startStringFormat.arg(candidateWellList.join(", ")).length() < maxStringLength)
{
wellList = candidateWellList;
}
QString wellStringWithPressure = QString("%1 (%2)").arg(it->second[w].first).arg(it->second[w].second);
QStringList candidateWellPressureList = wellPressureList; candidateWellPressureList << wellStringWithPressure;
if (startStringFormat.arg(candidateWellPressureList.join(", ")).length() < maxStringLength)
{
wellPressureList = candidateWellPressureList;
}
}
if (wellList.size() < numberOfWells)
{
wellList += QString("+ %1 more").arg(numberOfWells - wellList.size());
timeStepString += startStringFormat.arg(wellList.join(", "));
}
else if (wellPressureList.size() < numberOfWells)
{
timeStepString += startStringFormat.arg(wellList.join(", "));
}
else
{
timeStepString += startStringFormat.arg(wellPressureList.join(", "));
}
}
options.push_back(caf::PdmOptionItemInfo(timeStepString, i));
}
}
else
{
options = RicCaseAndFileExportSettingsUi::calculateValueOptions(fieldNeedingOptions, useOptionsOnly);
}
return options;
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
void RicExportCompletionDataSettingsUi::defineUiOrdering(QString uiConfigName, caf::PdmUiOrdering& uiOrdering)
{
{
caf::PdmUiGroup* group = uiOrdering.addNewGroup("Export Settings");
group->add(&compdatExport);
group->add(&caseToApply);
group->add(&useLateralNTG);
group->add(&includeMsw);
}
{
caf::PdmUiGroup* group = uiOrdering.addNewGroup("File Settings");
group->add(&fileSplit);
group->add(&m_reportCompletionTypesSeparately);
group->add(&folder);
}
{
caf::PdmUiGroup* group = uiOrdering.addNewGroup("Completions Export Selection");
if (!m_displayForSimWell)
{
if (m_perforationsEnabled)
{
group->add(&includePerforations);
group->add(&timeStep);
if (!includePerforations)
timeStep.uiCapability()->setUiReadOnly(true);
else
timeStep.uiCapability()->setUiReadOnly(false);
}
}
if (m_fracturesEnabled)
{
group->add(&includeFractures);
caf::PdmUiGroup* pddGroup = group->addNewGroup("Pressure Differential Depletion Scaling");
pddGroup->setUiReadOnly(!includeFractures());
pddGroup->add(&performTransScaling);
pddGroup->add(&transScalingTimeStep);
pddGroup->add(&transScalingWBHPSource);
pddGroup->add(&transScalingWBHP);
if (!includeFractures())
{
performTransScaling = false;
performTransScaling.uiCapability()->setUiReadOnly(true);
}
else
{
performTransScaling.uiCapability()->setUiReadOnly(false);
}
if (!performTransScaling())
{
transScalingTimeStep.uiCapability()->setUiReadOnly(true);
transScalingWBHPSource.uiCapability()->setUiReadOnly(true);
transScalingWBHP.uiCapability()->setUiReadOnly(true);
}
else
{
transScalingTimeStep.uiCapability()->setUiReadOnly(false);
transScalingWBHPSource.uiCapability()->setUiReadOnly(false);
transScalingWBHP.uiCapability()->setUiReadOnly(false);
if (transScalingWBHPSource == RicExportFractureCompletionsImpl::WBHP_FROM_SUMMARY)
{
transScalingWBHP.uiCapability()->setUiName("WBHP Before Production Start");
}
else
{
transScalingWBHP.uiCapability()->setUiName("User Defined WBHP");
}
}
// Set visibility
includeFractures.uiCapability()->setUiHidden(compdatExport == WPIMULT_AND_DEFAULT_CONNECTION_FACTORS && !includeMsw);
}
if (!m_displayForSimWell)
{
if (m_fishbonesEnabled)
{
group->add(&includeFishbones);
group->add(&excludeMainBoreForFishbones);
// Set visibility
if (!includeFishbones)
excludeMainBoreForFishbones.uiCapability()->setUiReadOnly(true);
else
excludeMainBoreForFishbones.uiCapability()->setUiReadOnly(false);
}
}
}
uiOrdering.skipRemainingFields();
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
std::map<int, std::vector<std::pair<QString, QString>>> RicExportCompletionDataSettingsUi::generateWellProductionStartStrings()
{
std::map<int, std::vector<std::pair<QString, QString>>> wellProductionStartStrings;
const RimProject* project = nullptr;
if (caseToApply)
{
caseToApply->firstAncestorOrThisOfTypeAsserted(project);
for (const RimWellPath* wellPath : project->allWellPaths())
{
int initialWellProductionTimeStep = -1;
double initialWellPressure = 0.0;
double currentWellPressure = 0.0;
RicExportFractureCompletionsImpl::getWellPressuresAndInitialProductionTimeStepFromSummaryData(caseToApply,
wellPath->completions()->wellNameForExport(),
0,
&initialWellProductionTimeStep,
&initialWellPressure,
&currentWellPressure);
if (initialWellProductionTimeStep >= 0)
{
QString pressureUnits = RiaEclipseUnitTools::unitStringPressure(wellPath->unitSystem());
wellProductionStartStrings[initialWellProductionTimeStep].push_back(std::make_pair(wellPath->name(), QString("%1 %2").arg(initialWellPressure, 4, 'f', 1).arg(pressureUnits)));
}
}
}
return wellProductionStartStrings;
}
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