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Merge pull request #573 from osae/test-eps
Endpoint scaling - taking advantage of the new parser.
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commit
a5ccc97a0f
@ -166,6 +166,7 @@ namespace Opm
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PhaseUsage phase_usage_;
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PhaseUsage phase_usage_;
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std::vector<SatFuncSet> satfuncset_;
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std::vector<SatFuncSet> satfuncset_;
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std::vector<int> cell_to_func_; // = SATNUM - 1
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std::vector<int> cell_to_func_; // = SATNUM - 1
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std::vector<int> cell_to_func_imb_;
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bool do_eps_; // ENDSCALE is active
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bool do_eps_; // ENDSCALE is active
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bool do_3pt_; // SCALECRS: YES~true NO~false
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bool do_3pt_; // SCALECRS: YES~true NO~false
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@ -187,6 +187,19 @@ namespace Opm
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OPM_THROW(std::runtime_error, "SaturationPropsFromDeck::init() -- oil phase must be active.");
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OPM_THROW(std::runtime_error, "SaturationPropsFromDeck::init() -- oil phase must be active.");
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}
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}
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// Check SATOPTS status
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bool hysteresis_switch = false;
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if (newParserDeck->hasKeyword("SATOPTS")) {
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const std::vector<std::string>& satopts = newParserDeck->getKeyword("SATOPTS")->getStringData();
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for (int i = 0; i < satopts.size(); ++i) {
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if (satopts[i] == std::string("HYSTER")) {
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hysteresis_switch = true;
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} else {
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OPM_THROW(std::runtime_error, "Keyword SATOPTS: Switch " << satopts[i] << " not supported. ");
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}
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}
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}
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// Obtain SATNUM, if it exists, and create cell_to_func_.
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// Obtain SATNUM, if it exists, and create cell_to_func_.
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// Otherwise, let the cell_to_func_ mapping be just empty.
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// Otherwise, let the cell_to_func_ mapping be just empty.
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int satfuncs_expected = 1;
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int satfuncs_expected = 1;
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@ -229,8 +242,29 @@ namespace Opm
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satfuncset_[table].init(newParserDeck, table, phase_usage_, samples);
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satfuncset_[table].init(newParserDeck, table, phase_usage_, samples);
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}
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}
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// Saturation table scaling
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// Check EHYSTR status
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do_hyst_ = false;
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do_hyst_ = false;
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if (hysteresis_switch && newParserDeck->hasKeyword("EHYSTR")) {
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const int& relative_perm_hyst = newParserDeck->getKeyword("EHYSTR")->getRecord(0)->getItem(1)->getInt(0);
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const std::string& limiting_hyst_flag = newParserDeck->getKeyword("EHYSTR")->getRecord(0)->getItem(4)->getString(0);
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if (relative_perm_hyst != int(0)) {
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OPM_THROW(std::runtime_error, "Keyword EHYSTR, item 2: Flag '" << relative_perm_hyst << "' found, only '0' is supported. ");
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}
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if (limiting_hyst_flag != std::string("KR")) {
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OPM_THROW(std::runtime_error, "Keyword EHYSTR, item 5: Flag '" << limiting_hyst_flag << "' found, only 'KR' is supported. ");
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}
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if ( ! newParserDeck->hasKeyword("ENDSCALE")) {
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// TODO When use of IMBNUM is implemented, this constraint will be lifted.
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OPM_THROW(std::runtime_error, "Currently hysteris effects is only available through endpoint scaling.");
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}
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do_hyst_ = true;
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} else if (hysteresis_switch) {
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OPM_THROW(std::runtime_error, "Switch HYSTER of keyword SATOPTS is active, but keyword EHYSTR not found.");
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} else if (newParserDeck->hasKeyword("EHYSTR")) {
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OPM_THROW(std::runtime_error, "Found keyword EHYSTR, but switch HYSTER of keyword SATOPTS is not set.");
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}
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// Saturation table scaling
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do_eps_ = false;
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do_eps_ = false;
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do_3pt_ = false;
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do_3pt_ = false;
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if (newParserDeck->hasKeyword("ENDSCALE")) {
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if (newParserDeck->hasKeyword("ENDSCALE")) {
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@ -253,19 +287,23 @@ namespace Opm
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}
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}
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do_eps_ = true;
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do_eps_ = true;
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// Make a consistency check of ENDNUM: #regions = NTENDP (ENDSCALE::3, TABDIMS::8)...
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if (newParserDeck->hasKeyword("ENDNUM")) {
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const std::vector<int>& endnum = newParserDeck->getKeyword("ENDNUM")->getIntData();
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int endnum_regions = *std::max_element(endnum.begin(), endnum.end());
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if (endnum_regions > endscale.numEndscaleTables()) {
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OPM_THROW(std::runtime_error,
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"ENDNUM: Found " << endnum_regions <<
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" regions. Maximum allowed is " << endscale.numEndscaleTables() <<
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" (confer item 3 of keyword ENDSCALE)."); // TODO See also item 8 of TABDIMS ...
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}
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}
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// TODO: ENPTVD/ENKRVD: Too few tables gives a cryptical message from parser,
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// superfluous tables are ignored by the parser without any warning ...
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initEPS(newParserDeck, number_of_cells, global_cell, begin_cell_centroids,
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initEPS(newParserDeck, number_of_cells, global_cell, begin_cell_centroids,
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dimensions);
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dimensions);
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// For now, a primitive detection of hysteresis. TODO: SATOPTS HYSTER/ and EHYSTR
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do_hyst_ =
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newParserDeck->hasKeyword("ISWL")
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|| newParserDeck->hasKeyword("ISWU")
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|| newParserDeck->hasKeyword("ISWCR")
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|| newParserDeck->hasKeyword("ISGL")
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|| newParserDeck->hasKeyword("ISGU")
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|| newParserDeck->hasKeyword("ISGCR")
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|| newParserDeck->hasKeyword("ISOWCR")
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|| newParserDeck->hasKeyword("ISOGCR");
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if (do_hyst_) {
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if (do_hyst_) {
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if (newParserDeck->hasKeyword("KRW")
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if (newParserDeck->hasKeyword("KRW")
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|| newParserDeck->hasKeyword("KRG")
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|| newParserDeck->hasKeyword("KRG")
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@ -274,6 +312,7 @@ namespace Opm
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|| newParserDeck->hasKeyword("KRGR")
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|| newParserDeck->hasKeyword("KRGR")
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|| newParserDeck->hasKeyword("KRORW")
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|| newParserDeck->hasKeyword("KRORW")
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|| newParserDeck->hasKeyword("KRORG")
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|| newParserDeck->hasKeyword("KRORG")
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|| newParserDeck->hasKeyword("ENKRVD")
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|| newParserDeck->hasKeyword("IKRW")
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|| newParserDeck->hasKeyword("IKRW")
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|| newParserDeck->hasKeyword("IKRG")
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|| newParserDeck->hasKeyword("IKRG")
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|| newParserDeck->hasKeyword("IKRO")
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|| newParserDeck->hasKeyword("IKRO")
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@ -281,11 +320,29 @@ namespace Opm
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|| newParserDeck->hasKeyword("IKRGR")
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|| newParserDeck->hasKeyword("IKRGR")
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|| newParserDeck->hasKeyword("IKRORW")
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|| newParserDeck->hasKeyword("IKRORW")
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|| newParserDeck->hasKeyword("IKRORG") ) {
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|| newParserDeck->hasKeyword("IKRORG") ) {
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OPM_THROW(std::runtime_error,
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OPM_THROW(std::runtime_error,"Currently hysteresis and relperm value scaling cannot be combined.");
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"SaturationPropsFromDeck::init() -- ENDSCALE: "
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"Currently hysteresis and relperm value scaling "
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"cannot be combined.");
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}
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}
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if (newParserDeck->hasKeyword("IMBNUM")) {
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const std::vector<int>& imbnum = newParserDeck->getKeyword("IMBNUM")->getIntData();
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int imbnum_regions = *std::max_element(imbnum.begin(), imbnum.end());
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if (imbnum_regions > num_tables) {
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OPM_THROW(std::runtime_error,
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"IMBNUM: Found " << imbnum_regions <<
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" regions. Maximum allowed is " << num_tables <<
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" (number of tables provided by SWOF/SGOF).");
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}
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const int num_cells = number_of_cells;
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cell_to_func_imb_.resize(num_cells);
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const int* gc = global_cell;
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for (int cell = 0; cell < num_cells; ++cell) {
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const int deck_pos = (gc == NULL) ? cell : gc[cell];
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cell_to_func_imb_[cell] = imbnum[deck_pos] - 1;
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}
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// TODO: Make actual use of IMBNUM. For now we just consider the imbibition curve
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// to be a scaled version of the drainage curve (confer Norne model).
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}
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initEPSHyst(newParserDeck, number_of_cells, global_cell, begin_cell_centroids,
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initEPSHyst(newParserDeck, number_of_cells, global_cell, begin_cell_centroids,
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dimensions);
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dimensions);
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}
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}
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@ -418,14 +475,18 @@ namespace Opm
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smin[np*i + opos] = 1.0;
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smin[np*i + opos] = 1.0;
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smax[np*i + opos] = 1.0;
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smax[np*i + opos] = 1.0;
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if (phase_usage_.phase_used[Aqua]) {
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if (phase_usage_.phase_used[Aqua]) {
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smin[np*i + wpos] = eps_transf_[cells[i]].wat.doNotScale ? eps_transf_[cells[i]].wat.smin: funcForCell(cells[i]).smin_[wpos];
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smin[np*i + wpos] = eps_transf_[cells[i]].wat.doNotScale ? funcForCell(cells[i]).smin_[wpos]
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smax[np*i + wpos] = eps_transf_[cells[i]].wat.doNotScale ? eps_transf_[cells[i]].wat.smax: funcForCell(cells[i]).smax_[wpos];
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: eps_transf_[cells[i]].wat.smin;
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smax[np*i + wpos] = eps_transf_[cells[i]].wat.doNotScale ? funcForCell(cells[i]).smax_[wpos]
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: eps_transf_[cells[i]].wat.smax;
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smin[np*i + opos] -= smax[np*i + wpos];
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smin[np*i + opos] -= smax[np*i + wpos];
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smax[np*i + opos] -= smin[np*i + wpos];
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smax[np*i + opos] -= smin[np*i + wpos];
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}
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}
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if (phase_usage_.phase_used[Vapour]) {
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if (phase_usage_.phase_used[Vapour]) {
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smin[np*i + gpos] = eps_transf_[cells[i]].wat.doNotScale ? eps_transf_[cells[i]].gas.smin: funcForCell(cells[i]).smin_[gpos];
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smin[np*i + gpos] = eps_transf_[cells[i]].gas.doNotScale ? funcForCell(cells[i]).smin_[gpos]
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smax[np*i + gpos] = eps_transf_[cells[i]].wat.doNotScale ? eps_transf_[cells[i]].gas.smax: funcForCell(cells[i]).smax_[gpos];
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: eps_transf_[cells[i]].gas.smin;
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smax[np*i + gpos] = eps_transf_[cells[i]].gas.doNotScale ? funcForCell(cells[i]).smax_[gpos]
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: eps_transf_[cells[i]].gas.smax;
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smin[np*i + opos] -= smax[np*i + gpos];
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smin[np*i + opos] -= smax[np*i + gpos];
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smax[np*i + opos] -= smin[np*i + gpos];
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smax[np*i + opos] -= smin[np*i + gpos];
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}
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}
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@ -1095,6 +1156,7 @@ namespace Opm
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for (int i=0; i<number_of_cells; ++i)
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for (int i=0; i<number_of_cells; ++i)
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scaleparam[i] = funcForCell(i).krgmax_;
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scaleparam[i] = funcForCell(i).krgmax_;
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}
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}
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} else if (keyword == std::string("KRO") || keyword == std::string("IKRO") ) {
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if (useLiquid && (useKeyword || columnIsMasked_(newParserDeck, "ENKRVD", 2))) {
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if (useLiquid && (useKeyword || columnIsMasked_(newParserDeck, "ENKRVD", 2))) {
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itab = 3;
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itab = 3;
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scaleparam.resize(number_of_cells);
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scaleparam.resize(number_of_cells);
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@ -1158,14 +1220,28 @@ namespace Opm
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}
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}
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} else {
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} else {
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const int dim = dimensions;
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const int dim = dimensions;
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std::vector<int> endnum;
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if ( newParserDeck->hasKeyword("ENDNUM")) {
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const std::vector<int>& e =
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newParserDeck->getKeyword("ENDNUM")->getIntData();
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endnum.resize(number_of_cells);
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const int* gc = global_cell;
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for (int cell = 0; cell < number_of_cells; ++cell) {
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for (int cell = 0; cell < number_of_cells; ++cell) {
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int jtab = cell_to_func_.empty() ? 0 : cell_to_func_[cell];
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const int deck_pos = (gc == NULL) ? cell : gc[cell];
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if (param_col[jtab][0] >= 0.0) {
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endnum[cell] = e[deck_pos] - 1; // Deck value zero prevents scaling via ENPTVD/ENKRVD
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}
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}
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else {
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// Default deck value is one
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endnum.assign(number_of_cells, 0);
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}
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for (int cell = 0; cell < number_of_cells; ++cell) {
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if (endnum[cell] >= 0 && param_col[endnum[cell]][0] >= 0.0) {
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double zc = UgGridHelpers
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double zc = UgGridHelpers
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::getCoordinate(UgGridHelpers::increment(begin_cell_centroid, cell, dim),
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::getCoordinate(UgGridHelpers::increment(begin_cell_centroid, cell, dim),
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dim-1);
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dim-1);
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if (zc >= depth_col[jtab].front() && zc <= depth_col[jtab].back()) { //don't want extrap outside depth interval
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if (zc >= depth_col[endnum[cell]].front() && zc <= depth_col[endnum[cell]].back()) { //don't want extrap outside depth interval
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scaleparam[cell] = linearInterpolation(depth_col[jtab], param_col[jtab], zc);
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scaleparam[cell] = linearInterpolation(depth_col[endnum[cell]], param_col[endnum[cell]], zc);
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}
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}
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}
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}
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}
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}
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