public static int call(HighsModel model, ref HighsSolution sol, ref HighsBasis bas) { int nc = model.colcost.Length; int nr = model.rowlower.Length; int nnz = model.avalue.Length; return(HighsLpSolver.Highs_call(nc, nr, nnz, model.colcost, model.collower, model.colupper, model.rowlower, model.rowupper, model.astart, model.aindex, model.avalue, sol.colvalue, sol.coldual, sol.rowvalue, sol.rowdual, bas.colbasisstatus, bas.rowbasisstatus)); }
static void Main(string[] args) { double[] cc = { 1, -2 }; double[] cl = { 0, 0 }; double[] cu = { 10, 10 }; double[] rl = { 0, 0 }; double[] ru = { 2, 1 }; int[] astart = { 0, 2 }; int[] aindex = { 0, 1, 0, 1 }; double[] avalue = { 1, 2, 1, 3 }; HighsObjectiveSense sense = HighsObjectiveSense.kMinimize; double offset = 0; HighsMatrixFormat a_format = HighsMatrixFormat.kColwise; HighsModel model = new HighsModel(cc, cl, cu, rl, ru, astart, aindex, avalue, offset, a_format, sense); HighsLpSolver solver = new HighsLpSolver(); HighsStatus status = solver.passLp(model); status = solver.run(); HighsSolution sol = solver.getSolution(); HighsBasis bas = solver.getBasis(); HighsModelStatus modelStatus = solver.GetModelStatus(); Console.WriteLine("Status: " + status); Console.WriteLine("Modelstatus: " + modelStatus); for (int i = 0; i < sol.rowvalue.Length; i++) { Console.WriteLine("Activity for row " + i + " = " + sol.rowvalue[i]); } for (int i = 0; i < sol.coldual.Length; i++) { Console.WriteLine("Reduced cost x[" + i + "] = " + sol.coldual[i]); } for (int i = 0; i < sol.rowdual.Length; i++) { Console.WriteLine("Dual value for row " + i + " = " + sol.rowdual[i]); } for (int i = 0; i < sol.colvalue.Length; i++) { Console.WriteLine("x" + i + " = " + sol.colvalue[i] + " is " + bas.colbasisstatus[i]); } }
static void Main(string[] args) { double[] cc = { 1, -2 }; double[] cl = { 0, 0 }; double[] cu = { 10, 10 }; double[] rl = { 0, 0 }; double[] ru = { 2, 1 }; int[] astart = { 0, 2, 4 }; int[] aindex = { 0, 1, 0, 1 }; double[] avalue = { 1, 2, 1, 3 }; HighsModel model = new HighsModel(cc, cl, cu, rl, ru, astart, aindex, avalue); HighsSolution sol = new HighsSolution(2, 2); HighsBasis bas = new HighsBasis(2, 2); int status = HighsLpSolver.call(model, ref sol, ref bas); Console.WriteLine("Status: " + status); }
public static HighsStatus call(HighsModel model, ref HighsSolution sol, ref HighsBasis bas, ref HighsModelStatus modelstatus) { int nc = model.colcost.Length; int nr = model.rowlower.Length; int nnz = model.avalue.Length; int[] colbasstat = new int[nc]; int[] rowbasstat = new int[nr]; int modelstate = 0; HighsStatus status = (HighsStatus)HighsLpSolver.Highs_call(nc, nr, nnz, model.colcost, model.collower, model.colupper, model.rowlower, model.rowupper, model.astart, model.aindex, model.avalue, sol.colvalue, sol.coldual, sol.rowvalue, sol.rowdual, colbasstat, rowbasstat, ref modelstate); modelstatus = (HighsModelStatus)modelstate; bas.colbasisstatus = colbasstat.Select(x => (HighsBasisStatus)x).ToArray(); bas.rowbasisstatus = rowbasstat.Select(x => (HighsBasisStatus)x).ToArray(); return(status); }
public HighsStatus passLp(HighsModel model) { return((HighsStatus)HighsLpSolver.Highs_passLp(this.highs, model.colcost.Length, model.rowlower.Length, model.avalue.Length, (int)model.a_format, (int)model.sense, model.offset, model.colcost, model.collower, model.colupper, model.rowlower, model.rowupper, model.astart, model.aindex, model.avalue)); }
public HighsStatus loadModel(HighsModel model) { return((HighsStatus)HighsLpSolver.Highs_loadModel(this.highs, model.colcost.Length, model.rowlower.Length, model.avalue.Length, model.colcost, model.collower, model.colupper, model.rowlower, model.rowupper, model.astart, model.aindex, model.avalue)); }