opm-simulators/opm/simulators/wells/GroupState.cpp
2023-02-15 22:57:44 +01:00

296 lines
10 KiB
C++

/*
Copyright 2021 Equinor
This file is part of the Open Porous Media project (OPM).
OPM 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.
OPM 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 for more details.
You should have received a copy of the GNU General Public License
along with OPM. If not, see <http://www.gnu.org/licenses/>.
*/
#if HAVE_CONFIG_H
#include "config.h"
#endif // HAVE_CONFIG_H
#include <iterator>
#include <opm/json/JsonObject.hpp>
#include <opm/simulators/wells/GroupState.hpp>
namespace Opm {
GroupState::GroupState(std::size_t np) :
num_phases(np)
{}
GroupState GroupState::serializationTestObject()
{
GroupState result(3);
result.m_production_rates = {{"test1", {1.0, 2.0}}};
result.production_controls = {{"test2", Group::ProductionCMode::LRAT}};
result.prod_red_rates = {{"test3", {3.0, 4.0, 5.0}}};
result.inj_red_rates = {{"test4", {6.0, 7.0}}};
result.inj_surface_rates = {{"test5", {8.0}}};
result.inj_resv_rates = {{"test6", {9.0, 10.0}}};
result.inj_rein_rates = {{"test7", {11.0}}};
result.inj_vrep_rate = {{"test8", 12.0}, {"test9", 13.0}};
result.m_grat_sales_target = {{"test10", 14.0}};
result.m_gpmaint_target = {{"test11", 15.0}};
result.injection_controls = {{{Phase::FOAM, "test12"}, Group::InjectionCMode::REIN}};
result.gpmaint_state.add("foo", GPMaint::State::serializationTestObject());
return result;
}
bool GroupState::operator==(const GroupState& other) const {
return this->m_production_rates == other.m_production_rates &&
this->production_controls == other.production_controls &&
this->prod_red_rates == other.prod_red_rates &&
this->inj_red_rates == other.inj_red_rates &&
this->inj_resv_rates == other.inj_resv_rates &&
this->inj_rein_rates == other.inj_rein_rates &&
this->inj_vrep_rate == other.inj_vrep_rate &&
this->inj_surface_rates == other.inj_surface_rates &&
this->m_grat_sales_target == other.m_grat_sales_target &&
this->injection_controls == other.injection_controls &&
this->gpmaint_state == other.gpmaint_state;
}
//-------------------------------------------------------------------------
bool GroupState::has_production_rates(const std::string& gname) const {
auto group_iter = this->m_production_rates.find(gname);
return (group_iter != this->m_production_rates.end());
}
void GroupState::update_production_rates(const std::string& gname, const std::vector<double>& rates) {
if (rates.size() != this->num_phases)
throw std::logic_error("Wrong number of phases");
this->m_production_rates[gname] = rates;
}
const std::vector<double>& GroupState::production_rates(const std::string& gname) const {
auto group_iter = this->m_production_rates.find(gname);
if (group_iter == this->m_production_rates.end())
throw std::logic_error("No such group");
return group_iter->second;
}
//-------------------------------------------------------------------------
bool GroupState::has_production_reduction_rates(const std::string& gname) const {
auto group_iter = this->prod_red_rates.find(gname);
return (group_iter != this->prod_red_rates.end());
}
void GroupState::update_production_reduction_rates(const std::string& gname, const std::vector<double>& rates) {
if (rates.size() != this->num_phases)
throw std::logic_error("Wrong number of phases");
this->prod_red_rates[gname] = rates;
}
const std::vector<double>& GroupState::production_reduction_rates(const std::string& gname) const {
auto group_iter = this->prod_red_rates.find(gname);
if (group_iter == this->prod_red_rates.end())
throw std::logic_error("No such group");
return group_iter->second;
}
//-------------------------------------------------------------------------
bool GroupState::has_injection_reduction_rates(const std::string& gname) const {
auto group_iter = this->inj_red_rates.find(gname);
return (group_iter != this->inj_red_rates.end());
}
void GroupState::update_injection_reduction_rates(const std::string& gname, const std::vector<double>& rates) {
if (rates.size() != this->num_phases)
throw std::logic_error("Wrong number of phases");
this->inj_red_rates[gname] = rates;
}
const std::vector<double>& GroupState::injection_reduction_rates(const std::string& gname) const {
auto group_iter = this->inj_red_rates.find(gname);
if (group_iter == this->inj_red_rates.end())
throw std::logic_error("No such group");
return group_iter->second;
}
//-------------------------------------------------------------------------
bool GroupState::has_injection_surface_rates(const std::string& gname) const {
auto group_iter = this->inj_surface_rates.find(gname);
return (group_iter != this->inj_surface_rates.end());
}
void GroupState::update_injection_surface_rates(const std::string& gname, const std::vector<double>& rates) {
if (rates.size() != this->num_phases)
throw std::logic_error("Wrong number of phases");
this->inj_surface_rates[gname] = rates;
}
const std::vector<double>& GroupState::injection_surface_rates(const std::string& gname) const {
auto group_iter = this->inj_surface_rates.find(gname);
if (group_iter == this->inj_surface_rates.end())
throw std::logic_error("No such group");
return group_iter->second;
}
//-------------------------------------------------------------------------
bool GroupState::has_injection_reservoir_rates(const std::string& gname) const {
auto group_iter = this->inj_resv_rates.find(gname);
return (group_iter != this->inj_resv_rates.end());
}
void GroupState::update_injection_reservoir_rates(const std::string& gname, const std::vector<double>& rates) {
if (rates.size() != this->num_phases)
throw std::logic_error("Wrong number of phases");
this->inj_resv_rates[gname] = rates;
}
const std::vector<double>& GroupState::injection_reservoir_rates(const std::string& gname) const {
auto group_iter = this->inj_resv_rates.find(gname);
if (group_iter == this->inj_resv_rates.end())
throw std::logic_error("No such group");
return group_iter->second;
}
//-------------------------------------------------------------------------
void GroupState::update_injection_rein_rates(const std::string& gname, const std::vector<double>& rates) {
if (rates.size() != this->num_phases)
throw std::logic_error("Wrong number of phases");
this->inj_rein_rates[gname] = rates;
}
const std::vector<double>& GroupState::injection_rein_rates(const std::string& gname) const {
auto group_iter = this->inj_rein_rates.find(gname);
if (group_iter == this->inj_rein_rates.end())
throw std::logic_error("No such group");
return group_iter->second;
}
//-------------------------------------------------------------------------
void GroupState::update_injection_vrep_rate(const std::string& gname, double rate) {
this->inj_vrep_rate[gname] = rate;
}
double GroupState::injection_vrep_rate(const std::string& gname) const {
auto group_iter = this->inj_vrep_rate.find(gname);
if (group_iter == this->inj_vrep_rate.end())
throw std::logic_error("No such group");
return group_iter->second;
}
//-------------------------------------------------------------------------
void GroupState::update_grat_sales_target(const std::string& gname, double target) {
this->m_grat_sales_target[gname] = target;
}
double GroupState::grat_sales_target(const std::string& gname) const {
auto group_iter = this->m_grat_sales_target.find(gname);
if (group_iter == this->m_grat_sales_target.end())
throw std::logic_error("No such group");
return group_iter->second;
}
bool GroupState::has_grat_sales_target(const std::string& gname) const {
return (this->m_grat_sales_target.count(gname) > 0);
}
//-------------------------------------------------------------------------
bool GroupState::has_production_control(const std::string& gname) const {
auto group_iter = this->production_controls.find(gname);
if (group_iter == this->production_controls.end())
return false;
return true;
}
void GroupState::production_control(const std::string& gname, Group::ProductionCMode cmode) {
this->production_controls[gname] = cmode;
}
Group::ProductionCMode GroupState::production_control(const std::string& gname) const {
auto group_iter = this->production_controls.find(gname);
if (group_iter == this->production_controls.end())
throw std::logic_error("Could not find any control for production group: " + gname);
return group_iter->second;
}
//-------------------------------------------------------------------------
bool GroupState::has_injection_control(const std::string& gname, Phase phase) const {
return this->injection_controls.count(std::make_pair(phase, gname)) > 0;
}
void GroupState::injection_control(const std::string& gname, Phase phase, Group::InjectionCMode cmode) {
this->injection_controls[ std::make_pair(phase, gname) ] = cmode;
}
Group::InjectionCMode GroupState::injection_control(const std::string& gname, Phase phase) const {
auto key = std::make_pair(phase, gname);
auto group_iter = this->injection_controls.find( key );
if (group_iter == this->injection_controls.end())
throw std::logic_error("Could not find ontrol for injection group: " + gname);
return group_iter->second;
}
//-------------------------------------------------------------------------
GPMaint::State& GroupState::gpmaint(const std::string& gname) {
if (!this->gpmaint_state.has(gname))
this->gpmaint_state.add(gname, GPMaint::State{});
return this->gpmaint_state[gname];
}
//-------------------------------------------------------------------------
void GroupState::update_gpmaint_target(const std::string& gname, double target) {
this->m_gpmaint_target[gname] = target;
}
double GroupState::gpmaint_target(const std::string& gname) const {
auto group_iter = this->m_gpmaint_target.find(gname);
if (group_iter == this->m_gpmaint_target.end())
throw std::logic_error("No such group");
return group_iter->second;
}
bool GroupState::has_gpmaint_target(const std::string& gname) const {
return (this->m_gpmaint_target.count(gname) > 0);
}
}