opm-simulators/ebos/eclinterregflows.cc
Bård Skaflestad 840a29f8ef Communicate Inter-Region Flows to I/O Rank
This commit ensures that compute inter-region flow rates on all
ranks and collect those on the I/O rank using CollectDataToIORank.

We add a trivial EclInterRegFlowMap data member to the communication
object.  This data member only knows the pertinent FIP region array
names, but uses existing read/write support to collect contributions
from all ranks into this "global" object.  We then pass this global
object on to the summary evaluation routine.
2022-02-18 14:53:43 +01:00

224 lines
5.7 KiB
C++

// -*- mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
// vi: set et ts=4 sw=4 sts=4:
/*
Copyright 2022 Equinor AS
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/>.
*/
#include <ebos/eclinterregflows.hh>
#include <algorithm>
#include <stdexcept>
Opm::EclInterRegFlowMapSingleFIP::
EclInterRegFlowMapSingleFIP(const std::vector<int>& region)
: region_(region.size(), 0)
{
if (! region.empty()) {
this->maxLocalRegionID_= this->maxGlobalRegionID_ =
*std::max_element(region.begin(), region.end());
}
std::transform(region.begin(), region.end(),
this->region_.begin(),
[](const int regID) { return regID - 1; });
}
void
Opm::EclInterRegFlowMapSingleFIP::
addConnection(const Cell& source,
const Cell& destination,
const data::InterRegFlowMap::FlowRates& rates)
{
if (this->isReadFromStream_) {
throw std::logic_error {
"Cannot add new connection to deserialised object"
};
}
if (! source.isInterior ||
(source.cartesianIndex > destination.cartesianIndex))
{
// Connection handled in different call. Don't double-count
// contributions.
return;
}
const auto r1 = this->region_[ source.activeIndex ];
const auto r2 = this->region_[ destination.activeIndex ];
if (r1 == r2) {
// Connection is internal to a region. Nothing to do.
return;
}
// Inter-region connection internal to an MPI rank or this rank owns
// the flow rate across this connection.
this->iregFlow_.addConnection(r1, r2, rates);
}
void Opm::EclInterRegFlowMapSingleFIP::compress()
{
this->iregFlow_.compress(this->maxGlobalRegionID_);
}
void Opm::EclInterRegFlowMapSingleFIP::clear()
{
this->iregFlow_.clear();
this->isReadFromStream_ = false;
}
const Opm::data::InterRegFlowMap&
Opm::EclInterRegFlowMapSingleFIP::getInterRegFlows() const
{
return this->iregFlow_;
}
std::size_t Opm::EclInterRegFlowMapSingleFIP::getLocalMaxRegionID() const
{
return this->maxLocalRegionID_;
}
bool
Opm::EclInterRegFlowMapSingleFIP::
assignGlobalMaxRegionID(const std::size_t regID)
{
if (regID < this->maxLocalRegionID_) {
return false;
}
this->maxGlobalRegionID_ = regID;
return true;
}
// =====================================================================
//
// Implementation of EclInterRegFlowMap (wrapper for multiple arrays)
//
// =====================================================================
Opm::EclInterRegFlowMap
Opm::EclInterRegFlowMap::createMapFromNames(std::vector<std::string> names)
{
auto map = EclInterRegFlowMap{};
map.names_ = std::move(names);
map.regionMaps_.resize(map.names_.size(), EclInterRegFlowMapSingleFIP{});
return map;
}
Opm::EclInterRegFlowMap::
EclInterRegFlowMap(const std::size_t numCells,
const std::vector<SingleRegion>& regions)
{
this->regionMaps_.reserve(regions.size());
this->names_.reserve(regions.size());
this->numCells_ = numCells;
for (const auto& region : regions) {
this->regionMaps_.emplace_back(region.definition);
this->names_.push_back(region.name);
}
}
void
Opm::EclInterRegFlowMap::
addConnection(const Cell& source,
const Cell& destination,
const data::InterRegFlowMap::FlowRates& rates)
{
for (auto& regionMap : this->regionMaps_) {
regionMap.addConnection(source, destination, rates);
}
}
void Opm::EclInterRegFlowMap::compress()
{
for (auto& regionMap : this->regionMaps_) {
regionMap.compress();
}
}
void Opm::EclInterRegFlowMap::clear()
{
for (auto& regionMap : this->regionMaps_) {
regionMap.clear();
}
this->readIsConsistent_ = true;
}
const std::vector<std::string>&
Opm::EclInterRegFlowMap::names() const
{
return this->names_;
}
std::vector<Opm::data::InterRegFlowMap>
Opm::EclInterRegFlowMap::getInterRegFlows() const
{
auto maps = std::vector<data::InterRegFlowMap>{};
maps.reserve(this->regionMaps_.size());
for (auto& regionMap : this->regionMaps_) {
maps.push_back(regionMap.getInterRegFlows());
}
return maps;
}
std::vector<std::size_t>
Opm::EclInterRegFlowMap::getLocalMaxRegionID() const
{
auto maxLocalRegionID = std::vector<std::size_t>{};
maxLocalRegionID.reserve(this->regionMaps_.size());
for (auto& regionMap : this->regionMaps_) {
maxLocalRegionID.push_back(regionMap.getLocalMaxRegionID());
}
return maxLocalRegionID;
}
bool
Opm::EclInterRegFlowMap::
assignGlobalMaxRegionID(const std::vector<std::size_t>& regID)
{
if (regID.size() != this->regionMaps_.size()) {
return false;
}
auto assignmentOK = true;
const auto numReg = regID.size();
for (auto region = 0*numReg; region < numReg; ++region) {
const auto ok = this->regionMaps_[region]
.assignGlobalMaxRegionID(regID[region]);
assignmentOK = assignmentOK && ok;
}
return assignmentOK;
}
bool Opm::EclInterRegFlowMap::readIsConsistent() const
{
return this->readIsConsistent_;
}