Connection Data: Write Flow Rates to XCON

This commit adds a simple facility for outputting surface rates of
the oil, gas, and water components for each well connection, as well
as total reservoir voidage rate per well connection if available in
the data::Connection object.

opm/output/eclipse/AggregateConnectionData.hpp

@@ -32,6 +32,10 @@ namespace Opm {
     class UnitSystem;
 } // Opm
 
+namespace Opm { namespace data {
+    class WellRates;
+}}
+
 namespace Opm { namespace RestartIO { namespace Helpers {
 
     class AggregateConnectionData
@@ -39,10 +43,11 @@ namespace Opm { namespace RestartIO { namespace Helpers {
     public:
         explicit AggregateConnectionData(const std::vector<int>& inteHead);
 
-        void captureDeclaredConnData(const Opm::Schedule&    sched,
-                                     const Opm::EclipseGrid& grid,
-                                     const Opm::UnitSystem&  units,
-                                     const std::size_t       sim_step);
+        void captureDeclaredConnData(const Opm::Schedule&        sched,
+                                     const Opm::EclipseGrid&     grid,
+                                     const Opm::UnitSystem&      units,
+                                     const Opm::data::WellRates& xw,
+                                     const std::size_t           sim_step);
 
         const std::vector<int>& getIConn() const
         {
@@ -54,9 +59,15 @@ namespace Opm { namespace RestartIO { namespace Helpers {
             return this->sConn_.data();
         }
 
+        const std::vector<double>& getXConn() const
+        {
+            return this->xConn_.data();
+        }
+
     private:
         WindowedMatrix<int> iConn_;
         WindowedMatrix<float> sConn_;
+        WindowedMatrix<double> xConn_;
     };
 
 }}} // Opm::RestartIO::Helpers

src/opm/output/eclipse/AggregateConnectionData.cpp

@@ -22,6 +22,8 @@
 #include <opm/output/eclipse/VectorItems/connection.hpp>
 #include <opm/output/eclipse/VectorItems/intehead.hpp>
 
+#include <opm/output/data/Wells.hpp>
+
 #include <opm/parser/eclipse/EclipseState/Grid/EclipseGrid.hpp>
 #include <opm/parser/eclipse/EclipseState/Schedule/Schedule.hpp>
 #include <opm/parser/eclipse/EclipseState/Schedule/ScheduleEnums.hpp>
@@ -230,32 +232,109 @@ namespace {
             sConn[Ix::item31] = -1.0e+20f;
         }
     } // SConn
+
+    namespace XConn {
+        std::size_t entriesPerConn(const std::vector<int>& inteHead)
+        {
+            return inteHead[VI::intehead::NXCONZ];
+        }
+
+        Opm::RestartIO::Helpers::WindowedMatrix<double>
+        allocate(const std::vector<int>& inteHead)
+        {
+            using WM = Opm::RestartIO::Helpers::WindowedMatrix<double>;
+
+            return WM {
+                WM::NumRows   { numWells(inteHead) },
+                WM::NumCols   { maxNumConn(inteHead) },
+                WM::WindowSize{ entriesPerConn(inteHead) }
+            };
+        }
+
+        template <class XConnArray>
+        void dynamicContrib(const Opm::data::Connection& x,
+                            const Opm::UnitSystem&       units,
+                            XConnArray&                  xConn)
+        {
+            using M  = ::Opm::UnitSystem::measure;
+            using Ix = ::Opm::RestartIO::Helpers::VectorItems::XConn::index;
+            using R  = ::Opm::data::Rates::opt;
+
+            // Note flow rate sign.  Treat production rates as positive.
+            const auto& Q = x.rates;
+
+            if (Q.has(R::oil)) {
+                xConn[Ix::OilRate] =
+                    - units.from_si(M::liquid_surface_rate, Q.get(R::oil));
+            }
+
+            if (Q.has(R::wat)) {
+                xConn[Ix::WaterRate] =
+                    - units.from_si(M::liquid_surface_rate, Q.get(R::wat));
+            }
+
+            if (Q.has(R::gas)) {
+                xConn[Ix::WaterRate] =
+                    - units.from_si(M::gas_surface_rate, Q.get(R::gas));
+            }
+
+            xConn[Ix::ResVRate] = 0.0;
+
+            if (Q.has(R::reservoir_oil)) {
+                xConn[Ix::ResVRate] -=
+                    units.from_si(M::rate, Q.get(R::reservoir_oil));
+            }
+
+            if (Q.has(R::reservoir_water)) {
+                xConn[Ix::ResVRate] -=
+                    units.from_si(M::rate, Q.get(R::reservoir_water));
+            }
+
+            if (Q.has(R::reservoir_gas)) {
+                xConn[Ix::ResVRate] -=
+                    units.from_si(M::rate, Q.get(R::reservoir_gas));
+            }
+        }
+    } // XConn
 } // Anonymous
 
 Opm::RestartIO::Helpers::AggregateConnectionData::
 AggregateConnectionData(const std::vector<int>& inteHead)
     : iConn_(IConn::allocate(inteHead))
     , sConn_(SConn::allocate(inteHead))
+    , xConn_(XConn::allocate(inteHead))
 {}
 
 // ---------------------------------------------------------------------
 
 void
 Opm::RestartIO::Helpers::AggregateConnectionData::
-captureDeclaredConnData(const Schedule&    sched,
-                        const EclipseGrid& grid,
-                        const UnitSystem&  units,
-                        const std::size_t  sim_step)
+captureDeclaredConnData(const Schedule&        sched,
+                        const EclipseGrid&     grid,
+                        const UnitSystem&      units,
+                        const data::WellRates& xw,
+                        const std::size_t      sim_step)
 {
     const auto& wells = sched.getWells(sim_step);
 
-    connectionLoop(wells, grid, sim_step, [&units, this]
-        (const Well&    /* well */, const std::size_t wellID,
-         const Connection& conn   , const std::size_t connID) -> void
+    connectionLoop(wells, grid, sim_step, [&units, &xw, this]
+        (const Well&       well, const std::size_t wellID,
+         const Connection& conn, const std::size_t connID) -> void
     {
         auto ic = this->iConn_(wellID, connID);
         auto sc = this->sConn_(wellID, connID);
+
         IConn::staticContrib(conn, connID, ic);
         SConn::staticContrib(conn, units, sc);
+
+        auto xi = xw.find(well.name());
+        if ((xi != xw.end()) &&
+            (connID < xi->second.connections.size()))
+        {
+            auto xc = this->xConn_(wellID, connID);
+
+            XConn::dynamicContrib(xi->second.connections[connID],
+                                  units, xc);
+        }
     });
 }

src/opm/output/eclipse/RestartIO.cpp

@@ -366,10 +366,11 @@ namespace {
         }
 
         auto connectionData = Helpers::AggregateConnectionData(ih);
-        connectionData.captureDeclaredConnData(schedule, grid, units, sim_step);
+        connectionData.captureDeclaredConnData(schedule, grid, units, wells, sim_step);
 
         write_kw(rst_file, "ICON", connectionData.getIConn());
         write_kw(rst_file, "SCON", connectionData.getSConn());
+        write_kw(rst_file, "XCON", connectionData.getXConn());
     }
 
     void writeSolution(ecl_rst_file_type*  rst_file,