... to calculate phase densities for the threshold pressure
defaults. I don't know if the reference simulator does this, but this
makes it consistent with what's done in the flux calculation of flow.
Previously, we also called it when the full time step was done.
As the simulator writes that information anyway and we cannot call
it a sub step, we omit the final write in the adaptive time stepper.
-- avoid using eof()
-- add comments
-- no longer assumes two lines of comments.
-- revert change to default value for timestep.initial_step_length
-- make contructer explicit
-- pass reference
A new timestepper that reads timesteps from a file generated using
ecl_summary "DECK" TIME
and applies it to the simulator
Also a parameter timestep.initial_step_length (default 1 day) is added
to controll the frist timestep.
Changes to BlackoilOutputWriter as mandated by the split and rewrite of
opm-output. Notable changes:
* BlackoilOutputWriter is no longer a child class of OutputWriter.
* Minor interface changes; writeTimeStep requires a Wells pointer
* restore requires a Wells* pointer
* VTK/Matlab support rewrites; no longer inherits OutputWriter
* WellStateFullyImplicitBlackoil::report added, to write its data to a
opm-output understood format
Relies on utility/Compat.hpp for quick conversion to the opm-output
defined formats.
This was disabled when the facilities were moved to opm-output.
Now that the simulators are in the opm-simulators module and not
opm-core we can re-enable it.
Have removed the SimulatorState base class, and instead replaced with
the SimulationDatacontainer class from opm-common. The SimulatorState
objects were typcially created with a default constructor, and then
explicitly initialized with a SimulatorState::init() method. For the
SimulationDataContainer RAII is employed; the init( ) has been removed -
and there is no default constructor.
the typo was caused the surface density of the oil phase to be used
instead of the one of gas. This caused the density to be off by a
factor of typically about 900.
using saturated FVFs does not change much, but it does not hurt
because it is also done that way in the simulator.
This makes the defaults for the threshold pressures reasonable again,
but for some reason they are not exactly the same as in the old
implementation. (although the differences are very tolerable.)
On the question why only "Model 2" is affected by this: the other
decks don't use threshold pressures (SPE-X) or do not default any
values (Norne).
the opm-material classes are the ones which are now used by
opm-autodiff and this patch makes it much easier to keep the opm-core
and opm-autodiff results consistent. Also, the opm-material classes
seem to be a bit faster than the opm-core ones (see
https://github.com/OPM/opm-autodiff/pull/576)
I ran the usual array of tests with `flow`: SPE1, SPE3, SPE9 and Norne
all produce the same results at the identical runtime (modulo noise)
and also "Model 2" seems to work.
opm-parser#677 changes the return types for the Deck family of classes.
This patch fixes all broken code from that patch set.
https://github.com/OPM/opm-parser/pull/677
I have doubts if this will change anything in the binaries (and in my
personal opinion, these 'const's look quite ugly and are sometimes a
(small) annoyance when debugging), but I don't mind using the coding
style used by most of the rest of opm-core here.
