/* * This code is generated by BioUML FrameWork * for BIOMD0000000026.xml diagram at 2008.03.20 15:04:03 */ import biouml.plugins.simulation.ae.NewtonSolver; import biouml.plugins.simulation.java.JavaBaseModel; import ru.biosoft.math.MathRoutines; public class BIOMD0000000026 extends JavaBaseModel { /* * Write rules to calculate equation parameters */ /* * Write rules to calculate equation parameters excluding internal variables. */ public void __internalRateVarInitFunc_0(double time, double[] x) { rate_v1a = uVol*(k1*x[0]*x[1] - k_1*x[3]); rate_v1b = uVol*k2*x[3]; rate_v2a = uVol*(k3*x[10]*x[1] - k_3*x[5]); rate_v2b = uVol*k4*x[5]; rate_v3a = uVol*(h1*x[8]*x[2] - h_1*x[9]); rate_v3b = uVol*h2*x[9]; rate_v3c = h3*x[7] - h_3*x[10]*x[2]; rate_v4a = uVol*(h4*x[10]*x[2] - h_4*x[6]); rate_v4b = uVol*h5*x[6]; rate_v4c = uVol*(h6*x[4] - h_6*x[0]*x[2]); } public void Init() { initialValues = getInitialValues(); /* * Initialize variables */ uVol = 1.0; // initial value of $uVol h1 = 0.045; // initial value of h1 h2 = 0.092; // initial value of h2 h3 = 1.0; // initial value of h3 h4 = 0.01; // initial value of h4 h5 = 0.5; // initial value of h5 h6 = 0.086; // initial value of h6 h_1 = 1.0; // initial value of h_1 h_3 = 0.01; // initial value of h_3 h_4 = 1.0; // initial value of h_4 h_6 = 0.0011; // initial value of h_6 k1 = 0.02; // initial value of k1 k2 = 0.01; // initial value of k2 k3 = 0.032; // initial value of k3 k4 = 15.0; // initial value of k4 k_1 = 1.0; // initial value of k_1 k_3 = 1.0; // initial value of k_3 } /* * Model variables initial values */ protected double rate_v1a; protected double rate_v1b; protected double rate_v2a; protected double rate_v2b; protected double rate_v3a; protected double rate_v3b; protected double rate_v3c; protected double rate_v4a; protected double rate_v4b; protected double rate_v4c; protected double uVol; protected double h1; protected double h2; protected double h3; protected double h4; protected double h5; protected double h6; protected double h_1; protected double h_3; protected double h_4; protected double h_6; protected double k1; protected double k2; protected double k3; protected double k4; protected double k_1; protected double k_3; public double[] extendResult(double time,double [] x) { this.time = time; double[] y = new double[11]; y[0] = x[0]; y[1] = x[1]; y[2] = x[2]; y[3] = x[3]; y[4] = x[4]; y[5] = x[5]; y[6] = x[6]; y[7] = x[7]; y[8] = x[8]; y[9] = x[9]; y[10] = x[10]; return y; } public double[] getInitialValues() { double [] x = new double[11]; this.time = 0.0; x[0] = 500.0; // - $"uVol.M" x[1] = 50.0; // - $"uVol.MAPKK" x[2] = 100.0; // - $"uVol.MKP3" x[3] = 0.0; // - $"uVol.M_MAPKK" x[4] = 0.0; // - $"uVol.M_MKP3" x[5] = 0.0; // - $"uVol.Mp_MAPKK" x[6] = 0.0; // - $"uVol.Mp_MKP3" x[7] = 0.0; // - $"uVol.Mp_MKP3_dep" x[8] = 0.0; // - $"uVol.Mpp" x[9] = 0.0; // - $"uVol.Mpp_MKP3" x[10] = 0.0; // - $uVol.Mp __internalRateVarInitFunc_0(time, x); return x; } /* * code for algebraic rules calculations */ /* * end of code for algebraic rules calculations */ protected void calculateRates(double time, double[] x) { __internalRateVarInitFunc_0(time, x); } /* * calculate dy/dt for 'BIOMD0000000026.xml' model */ public void __internalDyDt_0(double time, double [] x, double[] result) { result[0] = -rate_v1a+rate_v4c; result[1] = -rate_v1a+rate_v1b-rate_v2a+rate_v2b; result[2] = -rate_v3a+rate_v3c-rate_v4a+rate_v4c; result[3] = +rate_v1a-rate_v1b; result[4] = +rate_v4b-rate_v4c; result[5] = +rate_v2a-rate_v2b; result[6] = +rate_v4a-rate_v4b; result[7] = +rate_v3b-rate_v3c; result[8] = +rate_v2b-rate_v3a; result[9] = +rate_v3a-rate_v3b; result[10] = +rate_v1b-rate_v2a+rate_v3c-rate_v4a; } protected double [] calculateResult(double time, double[] x) { double[] result = new double[11]; __internalDyDt_0(time, x, result); return result; } public double[] dy_dt(double time, double[] x) { this.time = time; calculateRates( time,x ); return calculateResult( time,x ); } } // class ...