public void estimate(final Access1D<?> x, final Access1D<?> y) { final int tmpRowDim = (int) Math.min(x.count(), y.count()); final int tmpColDim = this.size(); final PhysicalStore<ComplexNumber> tmpBody = ComplexDenseStore.FACTORY.makeZero(tmpRowDim, tmpColDim); final PhysicalStore<ComplexNumber> tmpRHS = ComplexDenseStore.FACTORY.makeZero(tmpRowDim, 1); for (int i = 0; i < tmpRowDim; i++) { ComplexNumber tmpX = ComplexNumber.ONE; final ComplexNumber tmpXfactor = ComplexNumber.valueOf((Number) x.get(i)); final ComplexNumber tmpY = ComplexNumber.valueOf((Number) y.get(i)); for (int j = 0; j < tmpColDim; j++) { tmpBody.set(i, j, tmpX); tmpX = tmpX.multiply(tmpXfactor); } tmpRHS.set(i, 0, tmpY); } final QR<ComplexNumber> tmpQR = QR.makeComplex(); tmpQR.decompose(tmpBody); this.set(tmpQR.solve(tmpRHS)); }
@SuppressWarnings("unchecked") static void copy( final ExpressionsBasedModel sourceModel, final QuadraticSolver.Builder destinationBuilder) { final List<Variable> tmpFreeVariables = sourceModel.getFreeVariables(); final Set<Index> tmpFixedVariables = sourceModel.getFixedVariables(); final int tmpFreeVarDim = tmpFreeVariables.size(); final Array1D<Double> tmpCurrentSolution = Array1D.PRIMITIVE.makeZero(tmpFreeVarDim); for (int i = 0; i < tmpFreeVariables.size(); i++) { final BigDecimal tmpValue = tmpFreeVariables.get(i).getValue(); if (tmpValue != null) { tmpCurrentSolution.set(i, tmpValue.doubleValue()); } } final Optimisation.Result tmpKickStarter = new Optimisation.Result(Optimisation.State.UNEXPLORED, Double.NaN, tmpCurrentSolution); // AE & BE final List<Expression> tmpEqExpr = sourceModel.selectExpressionsLinearEquality(); final int tmpEqExprDim = tmpEqExpr.size(); if (tmpEqExprDim > 0) { final PhysicalStore<Double> tmpAE = FACTORY.makeZero(tmpEqExprDim, tmpFreeVarDim); final PhysicalStore<Double> tmpBE = FACTORY.makeZero(tmpEqExprDim, 1); for (int i = 0; i < tmpEqExprDim; i++) { final Expression tmpExpression = tmpEqExpr.get(i); for (final Expression.Index tmpKey : tmpExpression.getLinearFactorKeys()) { final int tmpIndex = sourceModel.indexOfFreeVariable(tmpKey.index); if (tmpIndex >= 0) { tmpAE.set(i, tmpIndex, tmpExpression.getAdjustedLinearFactor(tmpKey)); } } tmpBE.set(i, 0, tmpExpression.getCompensatedUpperLimit(tmpFixedVariables)); } destinationBuilder.equalities(tmpAE, tmpBE); } // Q & C final Expression tmpObjExpr = sourceModel.getObjectiveExpression(); PhysicalStore<Double> tmpQ = null; if (tmpObjExpr.isAnyQuadraticFactorNonZero()) { tmpQ = FACTORY.makeZero(tmpFreeVarDim, tmpFreeVarDim); final BinaryFunction<Double> tmpBaseFunc = sourceModel.isMaximisation() ? SUBTRACT : ADD; UnaryFunction<Double> tmpModifier; for (final Expression.RowColumn tmpKey : tmpObjExpr.getQuadraticFactorKeys()) { final int tmpRow = sourceModel.indexOfFreeVariable(tmpKey.row); final int tmpColumn = sourceModel.indexOfFreeVariable(tmpKey.column); if ((tmpRow >= 0) && (tmpColumn >= 0)) { tmpModifier = tmpBaseFunc.second(tmpObjExpr.getAdjustedQuadraticFactor(tmpKey)); tmpQ.modifyOne(tmpRow, tmpColumn, tmpModifier); tmpQ.modifyOne(tmpColumn, tmpRow, tmpModifier); } } } PhysicalStore<Double> tmpC = null; if (tmpObjExpr.isAnyLinearFactorNonZero()) { tmpC = FACTORY.makeZero(tmpFreeVarDim, 1); if (sourceModel.isMinimisation()) { for (final Expression.Index tmpKey : tmpObjExpr.getLinearFactorKeys()) { final int tmpIndex = sourceModel.indexOfFreeVariable(tmpKey.index); if (tmpIndex >= 0) { tmpC.set(tmpIndex, 0, -tmpObjExpr.getAdjustedLinearFactor(tmpKey)); } } } else { for (final Expression.Index tmpKey : tmpObjExpr.getLinearFactorKeys()) { final int tmpIndex = sourceModel.indexOfFreeVariable(tmpKey.index); if (tmpIndex >= 0) { tmpC.set(tmpIndex, 0, tmpObjExpr.getAdjustedLinearFactor(tmpKey)); } } } } destinationBuilder.objective(tmpQ, tmpC); // AI & BI final List<Expression> tmpUpExpr = sourceModel.selectExpressionsLinearUpper(); final int tmpUpExprDim = tmpUpExpr.size(); final List<Variable> tmpUpVar = sourceModel.selectVariablesFreeUpper(); final int tmpUpVarDim = tmpUpVar.size(); final List<Expression> tmpLoExpr = sourceModel.selectExpressionsLinearLower(); final int tmpLoExprDim = tmpLoExpr.size(); final List<Variable> tmpLoVar = sourceModel.selectVariablesFreeLower(); final int tmpLoVarDim = tmpLoVar.size(); if ((tmpUpExprDim + tmpUpVarDim + tmpLoExprDim + tmpLoVarDim) > 0) { final ModelEntity<?>[] tmpEntities = new ModelEntity<?>[tmpUpExprDim + tmpUpVarDim + tmpLoExprDim + tmpLoVarDim]; final PhysicalStore<Double> tmpUAI = FACTORY.makeZero(tmpUpExprDim + tmpUpVarDim, tmpFreeVarDim); final PhysicalStore<Double> tmpUBI = FACTORY.makeZero(tmpUpExprDim + tmpUpVarDim, 1); if (tmpUpExprDim > 0) { for (int i = 0; i < tmpUpExprDim; i++) { final Expression tmpExpression = tmpUpExpr.get(i); for (final Expression.Index tmpKey : tmpExpression.getLinearFactorKeys()) { final int tmpIndex = sourceModel.indexOfFreeVariable(tmpKey.index); if (tmpIndex >= 0) { tmpUAI.set(i, tmpIndex, tmpExpression.getAdjustedLinearFactor(tmpKey)); } } tmpUBI.set(i, 0, tmpExpression.getCompensatedUpperLimit(tmpFixedVariables)); tmpEntities[i] = tmpExpression; } } if (tmpUpVarDim > 0) { for (int i = 0; i < tmpUpVarDim; i++) { final Variable tmpVariable = tmpUpVar.get(i); tmpUAI.set( tmpUpExprDim + i, sourceModel.indexOfFreeVariable(tmpVariable), tmpVariable.getAdjustmentFactor()); tmpUBI.set(tmpUpExprDim + i, 0, tmpVariable.getAdjustedUpperLimit()); tmpEntities[tmpUpExprDim + i] = tmpVariable; } } final PhysicalStore<Double> tmpLAI = FACTORY.makeZero(tmpLoExprDim + tmpLoVarDim, tmpFreeVarDim); final PhysicalStore<Double> tmpLBI = FACTORY.makeZero(tmpLoExprDim + tmpLoVarDim, 1); if (tmpLoExprDim > 0) { for (int i = 0; i < tmpLoExprDim; i++) { final Expression tmpExpression = tmpLoExpr.get(i); for (final Expression.Index tmpKey : tmpExpression.getLinearFactorKeys()) { final int tmpIndex = sourceModel.indexOfFreeVariable(tmpKey.index); if (tmpIndex >= 0) { tmpLAI.set(i, tmpIndex, -tmpExpression.getAdjustedLinearFactor(tmpKey)); } } tmpLBI.set(i, 0, -tmpExpression.getCompensatedLowerLimit(tmpFixedVariables)); tmpEntities[tmpUpExprDim + tmpUpVarDim + i] = tmpExpression; } } if (tmpLoVarDim > 0) { for (int i = 0; i < tmpLoVarDim; i++) { final Variable tmpVariable = tmpLoVar.get(i); tmpLAI.set( tmpLoExprDim + i, sourceModel.indexOfFreeVariable(tmpVariable), -tmpVariable.getAdjustmentFactor()); tmpLBI.set(tmpLoExprDim + i, 0, -tmpVariable.getAdjustedLowerLimit()); tmpEntities[tmpUpExprDim + tmpUpVarDim + tmpLoExprDim + i] = tmpVariable; } } final MatrixStore<Double> tmpAI = tmpLAI.builder().above(tmpUAI).build(); final MatrixStore<Double> tmpBI = tmpLBI.builder().above(tmpUBI).build(); destinationBuilder.inequalities(tmpAI, tmpBI, tmpEntities); final IndexSelector tmpSelector = new IndexSelector(tmpEntities.length); for (int i = 0; i < tmpEntities.length; i++) { if (tmpEntities[i].isActiveInequalityConstraint()) { tmpSelector.include(i); } } tmpKickStarter.activeSet(tmpSelector.getIncluded()); } destinationBuilder.setKickStarter(tmpKickStarter); }