diff --git a/examples/cpchop.cpp b/examples/cpchop.cpp index 61d97a7..37eb656 100644 --- a/examples/cpchop.cpp +++ b/examples/cpchop.cpp @@ -350,7 +350,7 @@ try // Calculate minimum and maximum water volume in each cell based on input pc-curves per rock type // Create single-phase upscaling object to get poro and perm values from the grid Opm::DeckConstPtr subdeck = ch.subDeck(); - std::vector perms = subdeck->getKeyword("PERMX")->getSIDoubleData(); + std::vector perms = subdeck->getKeyword("PERMX")->getRawDoubleData(); Opm::SinglePhaseUpscaler upscaler; upscaler.init(subdeck, bctype, minpermSI, residual_tolerance, linsolver_verbosity, linsolver_type, false); diff --git a/examples/upscale_cond.cpp b/examples/upscale_cond.cpp index c8520c0..81e51e2 100644 --- a/examples/upscale_cond.cpp +++ b/examples/upscale_cond.cpp @@ -352,8 +352,8 @@ try const int points = atoi(options["points"].c_str()); vector satnums = deck->getKeyword("SATNUM")->getIntData(); - vector poros = deck->getKeyword("PORO")->getSIDoubleData(); - vector permxs = deck->getKeyword("PERMX")->getSIDoubleData(); + vector poros = deck->getKeyword("PORO")->getRawDoubleData(); + vector permxs = deck->getKeyword("PERMX")->getRawDoubleData(); const double minPerm = atof(options["minPerm"].c_str()); const double minPoro = atof(options["minPoro"].c_str()); diff --git a/examples/upscale_relperm.cpp b/examples/upscale_relperm.cpp index 43946df..08a2200 100644 --- a/examples/upscale_relperm.cpp +++ b/examples/upscale_relperm.cpp @@ -398,9 +398,9 @@ try usageandexit(); } - vector poros = deck->getKeyword("PORO")->getSIDoubleData(); - vector permxs = deck->getKeyword("PERMX")->getSIDoubleData(); - vector zcorns = deck->getKeyword("ZCORN")->getSIDoubleData(); + vector poros = deck->getKeyword("PORO")->getRawDoubleData(); + vector permxs = deck->getKeyword("PERMX")->getRawDoubleData(); + vector zcorns = deck->getKeyword("ZCORN")->getRawDoubleData(); Opm::DeckRecordConstPtr specgridRecord = deck->getKeyword("SPECGRID")->getRecord(0); int x_res = specgridRecord->getItem("NX")->getInt(0); @@ -412,8 +412,8 @@ try if (deck->hasKeyword("PERMY") && deck->hasKeyword("PERMZ")) { anisotropic_input = true; - permys = deck->getKeyword("PERMY")->getSIDoubleData(); - permzs = deck->getKeyword("PERMZ")->getSIDoubleData(); + permys = deck->getKeyword("PERMY")->getRawDoubleData(); + permzs = deck->getKeyword("PERMZ")->getRawDoubleData(); if (isMaster) cout << "Info: PERMY and PERMZ present, going into anisotropic input mode, no J-functions\n"; if (isMaster) cout << " Options -relPermCurve and -jFunctionCurve is meaningless.\n"; } diff --git a/examples/upscale_relpermvisc.cpp b/examples/upscale_relpermvisc.cpp index 8fc34b2..779f80a 100644 --- a/examples/upscale_relpermvisc.cpp +++ b/examples/upscale_relpermvisc.cpp @@ -391,16 +391,16 @@ try exit(1); } - vector poros = deck->getKeyword("PORO")->getSIDoubleData(); - vector permxs = deck->getKeyword("PERMX")->getSIDoubleData(); + vector poros = deck->getKeyword("PORO")->getRawDoubleData(); + vector permxs = deck->getKeyword("PERMX")->getRawDoubleData(); // Load anisotropic (only diagonal supported) input if present in grid vector permys, permzs; if (deck->hasKeyword("PERMY") && deck->hasKeyword("PERMZ")) { anisotropic_input = true; - permys = deck->getKeyword("PERMY")->getSIDoubleData(); - permzs = deck->getKeyword("PERMZ")->getSIDoubleData(); + permys = deck->getKeyword("PERMY")->getRawDoubleData(); + permzs = deck->getKeyword("PERMZ")->getRawDoubleData(); if (isMaster) cout << "Info: PERMY and PERMZ present, going into anisotropic input mode, no J-functions\n"; if (isMaster) cout << " Options -relPermCurve and -jFunctionCurve is meaningless.\n"; }