/* There are a total of 117 entries in the algebraic variable array. There are a total of 44 entries in each of the rate and state variable arrays. There are a total of 137 entries in the constant variable array. */ /* * CONSTANTS[0] is Bmax_CaM in component buffca (mM). * CONSTANTS[128] is Bmax_SLhighj in component buffca (mM). * CONSTANTS[133] is Bmax_SLhighsl in component buffca (mM). * CONSTANTS[129] is Bmax_SLlowj in component buffca (mM). * CONSTANTS[134] is Bmax_SLlowsl in component buffca (mM). * CONSTANTS[1] is Bmax_SR in component buffca (mM). * CONSTANTS[2] is Bmax_TnChigh in component buffca (mM). * CONSTANTS[3] is Bmax_TnClow in component buffca (mM). * CONSTANTS[4] is Bmax_myosin in component buffca (mM). * STATES[0] is CaM in component buffca (mM). * STATES[41] is J_CaB_cytosol in component buffca (mM_per_ms). * STATES[42] is J_CaB_jntion in component buffca (mM_per_ms). * STATES[43] is J_CaB_sl in component buffca (mM_per_ms). * STATES[1] is Myoc in component buffca (mM). * STATES[2] is Myom in component buffca (mM). * STATES[3] is SLH_jn in component buffca (mM). * STATES[4] is SLH_sl in component buffca (mM). * STATES[5] is SLL_jn in component buffca (mM). * STATES[6] is SLL_sl in component buffca (mM). * STATES[7] is SRB in component buffca (mM). * STATES[8] is TnCHc in component buffca (mM). * STATES[9] is TnCHm in component buffca (mM). * STATES[10] is TnCL in component buffca (mM). * CONSTANTS[5] is koff_cam in component buffca (mS_per_uF). * CONSTANTS[6] is koff_myoca in component buffca (mS_per_uF). * CONSTANTS[7] is koff_myomg in component buffca (mS_per_uF). * CONSTANTS[8] is koff_slh in component buffca (mS_per_uF). * CONSTANTS[9] is koff_sll in component buffca (mS_per_uF). * CONSTANTS[10] is koff_sr in component buffca (mS_per_uF). * CONSTANTS[11] is koff_tnchca in component buffca (mS_per_uF). * CONSTANTS[12] is koff_tnchmg in component buffca (mS_per_uF). * CONSTANTS[102] is koff_tncl in component buffca (mS_per_uF). * CONSTANTS[13] is kon_cam in component buffca (per_mM_per_ms). * CONSTANTS[14] is kon_myoca in component buffca (per_mM_per_ms). * CONSTANTS[15] is kon_myomg in component buffca (per_mM_per_ms). * CONSTANTS[16] is kon_slh in component buffca (per_mM_per_ms). * CONSTANTS[17] is kon_sll in component buffca (per_mM_per_ms). * CONSTANTS[18] is kon_sr in component buffca (per_mM_per_ms). * CONSTANTS[19] is kon_tnchca in component buffca (per_mM_per_ms). * CONSTANTS[20] is kon_tnchmg in component buffca (per_mM_per_ms). * CONSTANTS[21] is kon_tncl in component buffca (per_mM_per_ms). * CONSTANTS[123] is Vjn in component geom (liter). * CONSTANTS[126] is Vmyo in component geom (liter). * CONSTANTS[130] is Vsl in component geom (liter). * STATES[11] is Ca_i in component calcium (mM). * VOI is time in component engine (ms). * CONSTANTS[22] is Mg_i in component ion (mM). * STATES[12] is Ca_jn in component calcium (mM). * STATES[13] is Ca_sl in component calcium (mM). * CONSTANTS[23] is ISO in component cell (dimensionless). * CONSTANTS[24] is Bmax_Na_jn in component buffna (mM). * CONSTANTS[25] is Bmax_Na_sl in component buffna (mM). * STATES[14] is NaB_jn in component buffna (mM). * STATES[15] is NaB_sl in component buffna (mM). * CONSTANTS[26] is koff_na in component buffna (mS_per_uF). * CONSTANTS[27] is kon_na in component buffna (per_mM_per_ms). * STATES[16] is Na_jn in component sodium (mM). * STATES[17] is Na_sl in component sodium (mM). * STATES[18] is Ca_sr in component calcium (mM). * STATES[19] is Csqn in component calcium (mM). * ALGEBRAIC[98] is ICa_tot_jn in component calcium (A_per_F). * ALGEBRAIC[99] is ICa_tot_sl in component calcium (A_per_F). * CONSTANTS[28] is JCa_slmyo in component geom (m3_per_s). * CONSTANTS[131] is Vsr in component geom (liter). * ALGEBRAIC[60] is J_serca in component ryr (mM_per_ms). * CONSTANTS[29] is C in component cell (farad). * CONSTANTS[30] is JCa_jnsl in component geom (m3_per_s). * CONSTANTS[31] is F in component phys (C_per_mol). * ALGEBRAIC[58] is J_SRCarel in component ryr (mM_per_ms). * ALGEBRAIC[59] is J_SR_leak in component ryr (mM_per_ms). * CONSTANTS[135] is Bmax_Csqn in component calcium_Csqn (mM). * CONSTANTS[32] is koff_csqn in component calcium_Csqn (mS_per_uF). * CONSTANTS[33] is kon_csqn in component calcium_Csqn (per_mM_per_ms). * ALGEBRAIC[66] is ICaB_jn in component icab (A_per_F). * ALGEBRAIC[68] is ICaL_Ca_jn in component ical (A_per_F). * ALGEBRAIC[85] is INaCa_jn in component inaca (A_per_F). * ALGEBRAIC[91] is IpCa_jn in component ipca (A_per_F). * ALGEBRAIC[67] is ICaB_sl in component icab (A_per_F). * ALGEBRAIC[69] is ICaL_Ca_sl in component ical (A_per_F). * ALGEBRAIC[86] is INaCa_sl in component inaca (A_per_F). * ALGEBRAIC[92] is IpCa_sl in component ipca (A_per_F). * CONSTANTS[34] is AF in component cell (dimensionless). * CONSTANTS[35] is RA in component cell (dimensionless). * CONSTANTS[36] is JNa_jnsl in component geom (m3_per_s). * CONSTANTS[37] is JNa_slmyo in component geom (m3_per_s). * CONSTANTS[103] is Vcell in component geom (liter). * CONSTANTS[38] is cell_length in component geom (um). * CONSTANTS[39] is cell_radius in component geom (um). * CONSTANTS[40] is pi in component geom (dimensionless). * ALGEBRAIC[100] is ICaB in component icab (A_per_F). * CONSTANTS[41] is gCaB in component icab (mS_per_uF). * CONSTANTS[42] is Fjn in component junc (dimensionless). * STATES[20] is V in component membrane (mV). * ALGEBRAIC[53] is ECa_jn in component nernst (mV). * CONSTANTS[127] is Fsl in component junc (dimensionless). * ALGEBRAIC[54] is ECa_sl in component nernst (mV). * ALGEBRAIC[113] is ICaL in component ical (A_per_F). * ALGEBRAIC[101] is ICaL_Ca in component ical (A_per_F). * ALGEBRAIC[70] is ICaL_K in component ical (A_per_F). * ALGEBRAIC[102] is ICaL_Na in component ical (A_per_F). * ALGEBRAIC[71] is ICaL_Na_jn in component ical (A_per_F). * ALGEBRAIC[72] is ICaL_Na_sl in component ical (A_per_F). * CONSTANTS[43] is Q10CaL in component ical (dimensionless). * STATES[21] is d in component ical (dimensionless). * STATES[22] is f in component ical (dimensionless). * STATES[23] is fCaB_jn in component ical (dimensionless). * STATES[24] is fCaB_sl in component ical (dimensionless). * CONSTANTS[44] is f_conducting in component ical (dimensionless). * CONSTANTS[45] is fcaCaMSL in component ical (dimensionless). * CONSTANTS[46] is fcaCaj in component ical (dimensionless). * ALGEBRAIC[0] is ibarca_jn in component ical (uA_per_cm2). * ALGEBRAIC[1] is ibarca_sl in component ical (uA_per_cm2). * ALGEBRAIC[2] is ibark in component ical (uA_per_cm2). * ALGEBRAIC[3] is ibarna_jn in component ical (uA_per_cm2). * ALGEBRAIC[4] is ibarna_sl in component ical (uA_per_cm2). * CONSTANTS[105] is pCa in component ical (cm_per_s). * CONSTANTS[47] is pCa_max in component ical (cm_per_s). * CONSTANTS[106] is pK in component ical (cm_per_s). * CONSTANTS[48] is pK_max in component ical (cm_per_s). * CONSTANTS[107] is pNa in component ical (cm_per_s). * CONSTANTS[49] is pNa_max in component ical (cm_per_s). * CONSTANTS[50] is Fjn_CaL in component junc (dimensionless). * CONSTANTS[132] is Q in component phys (dimensionless). * CONSTANTS[108] is Fsl_CaL in component junc (dimensionless). * ALGEBRAIC[5] is ical_d_inf in component ical_d (dimensionless). * ALGEBRAIC[6] is ical_d_tau in component ical_d (ms). * ALGEBRAIC[7] is ical_f_inf in component ical_f (dimensionless). * ALGEBRAIC[8] is ical_f_tau in component ical_f (ms). * CONSTANTS[51] is Ca_o in component ion (mM). * CONSTANTS[109] is FRT in component phys (per_mV). * CONSTANTS[52] is K_o in component ion (mM). * STATES[25] is K_i in component potassium (mM). * CONSTANTS[53] is Na_o in component ion (mM). * ALGEBRAIC[9] is IClB in component iclb (A_per_F). * CONSTANTS[54] is gClB in component iclb (mS_per_uF). * CONSTANTS[125] is ECl in component nernst (mV). * CONSTANTS[55] is GClCa in component iclca (mS_per_uF). * ALGEBRAIC[73] is IClCa in component iclca (A_per_F). * ALGEBRAIC[10] is IClCa_jn in component iclca (A_per_F). * ALGEBRAIC[11] is IClCa_sl in component iclca (A_per_F). * CONSTANTS[56] is KdClCa in component iclca (mM). * ALGEBRAIC[114] is IK1 in component ik1 (A_per_F). * CONSTANTS[110] is gK1 in component ik1 (mS_per_uF). * CONSTANTS[57] is gK1_max in component ik1 (mS_per_uF). * ALGEBRAIC[103] is ik1_inf in component ik1 (dimensionless). * ALGEBRAIC[55] is EK in component nernst (mV). * ALGEBRAIC[74] is ik1_inf_a in component ik1_ik1_inf (mS_per_uF). * ALGEBRAIC[75] is ik1_inf_b in component ik1_ik1_inf (mS_per_uF). * ALGEBRAIC[104] is IKp in component ikp (A_per_F). * ALGEBRAIC[76] is IKp_jn in component ikp (A_per_F). * ALGEBRAIC[77] is IKp_sl in component ikp (A_per_F). * CONSTANTS[58] is gKp in component ikp (mS_per_uF). * ALGEBRAIC[12] is kp in component ikp (dimensionless). * ALGEBRAIC[78] is IKr in component ikr (A_per_F). * CONSTANTS[111] is gKr in component ikr (mS_per_uF). * CONSTANTS[59] is gKr_max in component ikr (mS_per_uF). * ALGEBRAIC[13] is rr in component ikr (dimensionless). * STATES[26] is xr in component ikr (dimensionless). * ALGEBRAIC[14] is ikr_xr_inf in component ikr_xr (dimensionless). * ALGEBRAIC[15] is ikr_xr_tau in component ikr_xr (ms). * ALGEBRAIC[16] is EKs in component iks (mV). * ALGEBRAIC[79] is IKs in component iks (A_per_F). * ALGEBRAIC[17] is IKs_jn in component iks (A_per_F). * ALGEBRAIC[18] is IKs_sl in component iks (A_per_F). * CONSTANTS[112] is gKs_jn in component iks (mS_per_uF). * CONSTANTS[60] is gKs_max in component iks (mS_per_uF). * CONSTANTS[113] is gKs_sl in component iks (mS_per_uF). * CONSTANTS[61] is pNaK in component iks (dimensionless). * STATES[27] is xs in component iks (dimensionless). * STATES[28] is Na_i in component sodium (mM). * ALGEBRAIC[19] is iks_xs_inf in component iks_xs (dimensionless). * ALGEBRAIC[20] is iks_xs_tau in component iks_xs (ms). * ALGEBRAIC[80] is IKur in component ikur (A_per_F). * CONSTANTS[114] is gKur in component ikur (mS_per_uF). * CONSTANTS[62] is gKur_max in component ikur (mS_per_uF). * STATES[29] is ikur_r in component ikur (dimensionless). * STATES[30] is s in component ikur (dimensionless). * ALGEBRAIC[21] is ikur_r_inf in component ikur_ikur_r (dimensionless). * ALGEBRAIC[22] is ikur_r_tau in component ikur_ikur_r (ms). * ALGEBRAIC[23] is ikur_s_inf in component ikur_s (dimensionless). * ALGEBRAIC[24] is ikur_s_tau in component ikur_s (ms). * ALGEBRAIC[105] is INa in component ina (A_per_F). * ALGEBRAIC[81] is INa_jn in component ina (A_per_F). * ALGEBRAIC[82] is INa_sl in component ina (A_per_F). * CONSTANTS[115] is gNa in component ina (mS_per_uF). * CONSTANTS[63] is gNa_max in component ina (mS_per_uF). * STATES[31] is h in component ina (dimensionless). * STATES[32] is j in component ina (dimensionless). * STATES[33] is m in component ina (dimensionless). * ALGEBRAIC[56] is ENa_jn in component nernst (mV). * ALGEBRAIC[57] is ENa_sl in component nernst (mV). * ALGEBRAIC[27] is ina_h_inf in component ina_h (dimensionless). * ALGEBRAIC[28] is ina_h_tau in component ina_h (ms). * ALGEBRAIC[31] is ina_j_inf in component ina_j (dimensionless). * ALGEBRAIC[32] is ina_j_tau in component ina_j (ms). * ALGEBRAIC[33] is ina_m_inf in component ina_m (dimensionless). * ALGEBRAIC[34] is ina_m_tau in component ina_m (ms). * ALGEBRAIC[25] is ina_h_a in component ina_h (mS_per_uF). * ALGEBRAIC[26] is ina_h_b in component ina_h (mS_per_uF). * ALGEBRAIC[29] is ina_j_a in component ina_j (mS_per_uF). * ALGEBRAIC[30] is ina_j_b in component ina_j (mS_per_uF). * ALGEBRAIC[106] is INaB in component inab (A_per_F). * ALGEBRAIC[83] is INaB_jn in component inab (A_per_F). * ALGEBRAIC[84] is INaB_sl in component inab (A_per_F). * CONSTANTS[64] is gNaB in component inab (mS_per_uF). * ALGEBRAIC[107] is INaCa in component inaca (A_per_F). * CONSTANTS[116] is IbarNCX in component inaca (A_per_F). * CONSTANTS[65] is IbarNCX_max in component inaca (A_per_F). * ALGEBRAIC[35] is Ka_jn in component inaca (dimensionless). * ALGEBRAIC[36] is Ka_sl in component inaca (dimensionless). * CONSTANTS[66] is Kdact in component inaca (mM). * CONSTANTS[67] is KmCai in component inaca (mM). * CONSTANTS[68] is KmCao in component inaca (mM). * CONSTANTS[69] is KmNai in component inaca (mM). * CONSTANTS[70] is KmNao in component inaca (mM). * CONSTANTS[71] is Q10NCX in component inaca (dimensionless). * CONSTANTS[72] is ksat in component inaca (dimensionless). * CONSTANTS[73] is nu in component inaca (dimensionless). * ALGEBRAIC[37] is s1_jn in component inaca_INaCa_jn (mol4_per_m12). * ALGEBRAIC[38] is s2_jn in component inaca_INaCa_jn (mol4_per_m12). * ALGEBRAIC[39] is s3_jn in component inaca_INaCa_jn (mol4_per_m12). * ALGEBRAIC[40] is s1_sl in component inaca_INaCa_sl (mol4_per_m12). * ALGEBRAIC[41] is s2_sl in component inaca_INaCa_sl (mol4_per_m12). * ALGEBRAIC[42] is s3_sl in component inaca_INaCa_sl (mol4_per_m12). * ALGEBRAIC[108] is INaK in component inak (A_per_F). * ALGEBRAIC[87] is INaK_jn in component inak (A_per_F). * ALGEBRAIC[88] is INaK_sl in component inak (A_per_F). * CONSTANTS[74] is IbarNaK in component inak (A_per_F). * CONSTANTS[75] is KmKo in component inak (mM). * CONSTANTS[117] is KmNaip in component inak (mM). * ALGEBRAIC[43] is fnak in component inak (dimensionless). * CONSTANTS[118] is sigma in component inak (dimensionless). * ALGEBRAIC[109] is INaL in component inal (A_per_F). * ALGEBRAIC[89] is INaL_jn in component inal (A_per_F). * ALGEBRAIC[90] is INaL_sl in component inal (A_per_F). * CONSTANTS[119] is gNaL in component inal (mS_per_uF). * CONSTANTS[76] is gNaL_max in component inal (mS_per_uF). * STATES[34] is hl in component inal (dimensionless). * STATES[35] is ml in component inal (dimensionless). * ALGEBRAIC[44] is inal_hl_inf in component inal_hl (dimensionless). * CONSTANTS[77] is inal_hl_tau in component inal_hl (ms). * ALGEBRAIC[45] is inal_ml_a in component inal_ml (mS_per_uF). * ALGEBRAIC[46] is inal_ml_b in component inal_ml (mS_per_uF). * CONSTANTS[78] is Cl_i in component ion (mM). * CONSTANTS[79] is Cl_o in component ion (mM). * CONSTANTS[80] is IbarSLCaP in component ipca (A_per_F). * ALGEBRAIC[110] is IpCa in component ipca (A_per_F). * CONSTANTS[81] is KmPCa in component ipca (mM). * CONSTANTS[82] is Q10SLCaP in component ipca (dimensionless). * ALGEBRAIC[47] is ipca_IpCa_jn_a in component ipca_IpCa_jn (dimensionless). * CONSTANTS[104] is ipca_IpCa_jn_b in component ipca_IpCa_jn (dimensionless). * ALGEBRAIC[48] is ipca_IpCa_sl_a in component ipca_IpCa_sl (dimensionless). * CONSTANTS[124] is ipca_IpCa_sl_b in component ipca_IpCa_sl (dimensionless). * ALGEBRAIC[93] is Ito in component ito (A_per_F). * CONSTANTS[120] is gto in component ito (mS_per_uF). * CONSTANTS[83] is gto_max in component ito (mS_per_uF). * STATES[36] is x in component ito (dimensionless). * STATES[37] is y in component ito (dimensionless). * ALGEBRAIC[49] is ito_x_inf in component ito_x (dimensionless). * ALGEBRAIC[50] is ito_x_tau in component ito_x (ms). * ALGEBRAIC[51] is ito_y_inf in component ito_y (dimensionless). * ALGEBRAIC[52] is ito_y_tau in component ito_y (ms). * ALGEBRAIC[111] is ICa_tot in component membrane (A_per_F). * ALGEBRAIC[94] is ICl_tot in component membrane (A_per_F). * ALGEBRAIC[112] is INa_tot in component membrane (A_per_F). * ALGEBRAIC[116] is I_tot in component membrane (A_per_F). * ALGEBRAIC[95] is INa_tot_jn in component sodium (A_per_F). * ALGEBRAIC[96] is INa_tot_sl in component sodium (A_per_F). * ALGEBRAIC[115] is IK_tot in component potassium (A_per_F). * ALGEBRAIC[97] is I_stim in component stimulus (A_per_F). * CONSTANTS[84] is R in component phys (mJ_per_mol_per_K). * CONSTANTS[85] is T in component phys (kelvin). * CONSTANTS[86] is J_SR_leak_max in component ryr (mS_per_uF). * CONSTANTS[121] is Kmf in component ryr (mM). * CONSTANTS[87] is Kmr in component ryr (mM). * CONSTANTS[88] is MaxSR in component ryr (dimensionless). * CONSTANTS[89] is MinSR in component ryr (dimensionless). * CONSTANTS[90] is Q10SRCaP in component ryr (dimensionless). * ALGEBRAIC[61] is RI in component ryr (dimensionless). * CONSTANTS[91] is Vmax_SRCaP in component ryr (mM_per_ms). * CONSTANTS[92] is ec50SR in component ryr (mM). * CONSTANTS[93] is hillSRCaP in component ryr (dimensionless). * STATES[38] is i in component ryr (dimensionless). * ALGEBRAIC[62] is kCaSR in component ryr (dimensionless). * CONSTANTS[94] is kiCa in component ryr (per_mM_per_ms). * ALGEBRAIC[63] is kiSRCa in component ryr (per_mM_per_ms). * CONSTANTS[95] is kim in component ryr (mS_per_uF). * CONSTANTS[122] is koCa in component ryr (per_mM2_per_ms). * ALGEBRAIC[64] is koSRCa in component ryr (per_mM2_per_ms). * CONSTANTS[96] is kom in component ryr (mS_per_uF). * CONSTANTS[97] is ks in component ryr (mS_per_uF). * STATES[39] is o in component ryr (dimensionless). * STATES[40] is ryr_r in component ryr (dimensionless). * CONSTANTS[98] is amplitude in component stimulus (A_per_F). * ALGEBRAIC[65] is pace in component stimulus (dimensionless). * CONSTANTS[99] is stim_duration in component stimulus (ms). * CONSTANTS[100] is stim_offset in component stimulus (ms). * CONSTANTS[101] is stim_period in component stimulus (ms). * RATES[0] is d/dt CaM in component buffca (mM). * RATES[10] is d/dt TnCL in component buffca (mM). * RATES[8] is d/dt TnCHc in component buffca (mM). * RATES[9] is d/dt TnCHm in component buffca (mM). * RATES[1] is d/dt Myoc in component buffca (mM). * RATES[2] is d/dt Myom in component buffca (mM). * RATES[7] is d/dt SRB in component buffca (mM). * RATES[5] is d/dt SLL_jn in component buffca (mM). * RATES[3] is d/dt SLH_jn in component buffca (mM). * RATES[6] is d/dt SLL_sl in component buffca (mM). * RATES[4] is d/dt SLH_sl in component buffca (mM). * RATES[14] is d/dt NaB_jn in component buffna (mM). * RATES[15] is d/dt NaB_sl in component buffna (mM). * RATES[11] is d/dt Ca_i in component calcium (mM). * RATES[12] is d/dt Ca_jn in component calcium (mM). * RATES[13] is d/dt Ca_sl in component calcium (mM). * RATES[18] is d/dt Ca_sr in component calcium (mM). * RATES[19] is d/dt Csqn in component calcium (mM). * RATES[21] is d/dt d in component ical (dimensionless). * RATES[22] is d/dt f in component ical (dimensionless). * RATES[23] is d/dt fCaB_jn in component ical (dimensionless). * RATES[24] is d/dt fCaB_sl in component ical (dimensionless). * RATES[26] is d/dt xr in component ikr (dimensionless). * RATES[27] is d/dt xs in component iks (dimensionless). * RATES[29] is d/dt ikur_r in component ikur (dimensionless). * RATES[30] is d/dt s in component ikur (dimensionless). * RATES[31] is d/dt h in component ina (dimensionless). * RATES[32] is d/dt j in component ina (dimensionless). * RATES[33] is d/dt m in component ina (dimensionless). * RATES[34] is d/dt hl in component inal (dimensionless). * RATES[35] is d/dt ml in component inal (dimensionless). * RATES[36] is d/dt x in component ito (dimensionless). * RATES[37] is d/dt y in component ito (dimensionless). * RATES[20] is d/dt V in component membrane (mV). * RATES[25] is d/dt K_i in component potassium (mM). * RATES[38] is d/dt i in component ryr (dimensionless). * RATES[39] is d/dt o in component ryr (dimensionless). * RATES[40] is d/dt ryr_r in component ryr (dimensionless). * RATES[28] is d/dt Na_i in component sodium (mM). * RATES[16] is d/dt Na_jn in component sodium (mM). * RATES[17] is d/dt Na_sl in component sodium (mM). * There are a total of 5 condition variables. */ void initConsts(double* CONSTANTS, double* RATES, double *STATES) { CONSTANTS[0] = 0.024; CONSTANTS[1] = 0.0171; CONSTANTS[2] = 0.14; CONSTANTS[3] = 0.07; CONSTANTS[4] = 0.14; STATES[0] = 7.02128101897185673e-04; STATES[1] = 3.94923428392655786e-03; STATES[2] = 1.35538532457244482e-01; STATES[3] = 1.03674364292988680e-01; STATES[4] = 1.90759804527589089e-01; STATES[5] = 1.35640688636079511e-02; STATES[6] = 2.14063418881809235e-02; STATES[7] = 4.45327242854324807e-03; STATES[8] = 1.27856586024588575e-01; STATES[9] = 5.69999505293381902e-03; STATES[10] = 1.83143535034222225e-02; CONSTANTS[5] = 0.238; CONSTANTS[6] = 0.00046; CONSTANTS[7] = 5.7e-05; CONSTANTS[8] = 0.03; CONSTANTS[9] = 1.3; CONSTANTS[10] = 0.06; CONSTANTS[11] = 3.2e-05; CONSTANTS[12] = 0.00333; CONSTANTS[13] = 34.0; CONSTANTS[14] = 13.8; CONSTANTS[15] = 0.0157; CONSTANTS[16] = 100.0; CONSTANTS[17] = 100.0; CONSTANTS[18] = 100.0; CONSTANTS[19] = 2.37; CONSTANTS[20] = 0.003; CONSTANTS[21] = 32.7; STATES[11] = 2.10808768153058460e-04; CONSTANTS[22] = 1.0; STATES[12] = 3.25814677291117296e-04; STATES[13] = 2.33018340557575125e-04; CONSTANTS[23] = 0.0; CONSTANTS[24] = 7.561; CONSTANTS[25] = 1.65; STATES[14] = 3.61396062660070427e+00; STATES[15] = 7.88607791910409195e-01; CONSTANTS[26] = 0.001; CONSTANTS[27] = 0.0001; STATES[16] = 9.15153381546177336e+00; STATES[17] = 9.15182798281732346e+00; STATES[18] = 5.02305826642838293e-01; STATES[19] = 1.13337536953687845e+00; CONSTANTS[28] = 3.72425607984805052e-12; CONSTANTS[29] = 1.1e-10; CONSTANTS[30] = 8.24130542277896849e-13; CONSTANTS[31] = 96485.0; CONSTANTS[32] = 65.0; CONSTANTS[33] = 100.0; CONSTANTS[34] = 0.0; CONSTANTS[35] = 0.0; CONSTANTS[36] = 1.83127823220607955e-14; CONSTANTS[37] = 1.63862792221979433e-12; CONSTANTS[38] = 100.0; CONSTANTS[39] = 10.25; CONSTANTS[40] = 3.14159265358979312e+00; CONSTANTS[41] = 6.06430000000000033e-04; CONSTANTS[42] = 0.11; STATES[20] = -7.34336366728778671e+01; CONSTANTS[43] = 1.8; STATES[21] = 2.16850216379767157e-05; STATES[22] = 9.98384427312367095e-01; STATES[23] = 4.49572164109603364e-02; STATES[24] = 3.28512098597005947e-02; CONSTANTS[44] = 1.0; CONSTANTS[45] = 0.0; CONSTANTS[46] = 0.0; CONSTANTS[47] = 0.00027; CONSTANTS[48] = 1.35e-07; CONSTANTS[49] = 7.5e-09; CONSTANTS[50] = 0.9; CONSTANTS[51] = 1.8; CONSTANTS[52] = 5.4; STATES[25] = 120.0; CONSTANTS[53] = 140.0; CONSTANTS[54] = 0.009; CONSTANTS[55] = 0.0548; CONSTANTS[56] = 0.1; CONSTANTS[57] = 0.0525; CONSTANTS[58] = 0.002; CONSTANTS[59] = 0.035; STATES[26] = 1.31290096227093382e-03; CONSTANTS[60] = 0.0035; CONSTANTS[61] = 0.01833; STATES[27] = 7.49436760722081534e-03; STATES[28] = 9.15199678386256998e+00; CONSTANTS[62] = 0.045; STATES[29] = 3.93548562883350357e-04; STATES[30] = 9.58234428284286399e-01; CONSTANTS[63] = 23.0; STATES[31] = 3.15482710277587786e-01; STATES[32] = 2.48034071360795916e-01; STATES[33] = 1.89326933812916480e-02; CONSTANTS[64] = 0.000597; CONSTANTS[65] = 3.15; CONSTANTS[66] = 0.000384; CONSTANTS[67] = 0.00359; CONSTANTS[68] = 1.3; CONSTANTS[69] = 12.29; CONSTANTS[70] = 87.5; CONSTANTS[71] = 1.57; CONSTANTS[72] = 0.27; CONSTANTS[73] = 0.35; CONSTANTS[74] = 1.26; CONSTANTS[75] = 1.5; CONSTANTS[76] = 0.0025; STATES[34] = 3.79829335413739144e-02; STATES[35] = 1.01974216400706526e-02; CONSTANTS[77] = 600.0; CONSTANTS[78] = 15.0; CONSTANTS[79] = 150.0; CONSTANTS[80] = 0.0471; CONSTANTS[81] = 0.0005; CONSTANTS[82] = 2.35; CONSTANTS[83] = 0.165; STATES[36] = 1.37939236359928058e-03; STATES[37] = 9.45874848392074696e-01; CONSTANTS[84] = 8314.0; CONSTANTS[85] = 310.0; CONSTANTS[86] = 5.348e-06; CONSTANTS[87] = 1.7; CONSTANTS[88] = 15.0; CONSTANTS[89] = 1.0; CONSTANTS[90] = 2.6; CONSTANTS[91] = 0.0053114; CONSTANTS[92] = 0.45; CONSTANTS[93] = 1.787; STATES[38] = 5.01323282772066123e-07; CONSTANTS[94] = 0.5; CONSTANTS[95] = 0.005; CONSTANTS[96] = 0.06; CONSTANTS[97] = 25.0; STATES[39] = 2.01567245823636694e-06; STATES[40] = 8.00819151705148946e-01; CONSTANTS[98] = -12.5; CONSTANTS[99] = 5.0; CONSTANTS[100] = 50.0; CONSTANTS[101] = 1000.0; CONSTANTS[102] = (1.00000+ 0.500000*CONSTANTS[23])*0.0196000; CONSTANTS[103] = ( ( CONSTANTS[40]*pow(CONSTANTS[39], 2.00000))*CONSTANTS[38])*1.00000e-15; CONSTANTS[104] = pow( CONSTANTS[81]*1.00000, 1.60000); CONSTANTS[105] = ( (1.00000+ 0.500000*CONSTANTS[23])*(1.00000 - 0.500000*CONSTANTS[34]))*CONSTANTS[47]; CONSTANTS[106] = ( (1.00000+ 0.500000*CONSTANTS[23])*(1.00000 - 0.500000*CONSTANTS[34]))*CONSTANTS[48]; CONSTANTS[107] = ( (1.00000+ 0.500000*CONSTANTS[23])*(1.00000 - 0.500000*CONSTANTS[34]))*CONSTANTS[49]; CONSTANTS[108] = 1.00000 - CONSTANTS[50]; CONSTANTS[109] = (CONSTANTS[31]/CONSTANTS[84])/CONSTANTS[85]; CONSTANTS[110] = ( (1.00000+CONSTANTS[34])* pow((CONSTANTS[52]/5.40000), 1.0 / 2))*CONSTANTS[57]; CONSTANTS[111] = CONSTANTS[59]* pow((CONSTANTS[52]/5.40000), 1.0 / 2); CONSTANTS[112] = ((1.00000+CONSTANTS[34])+ 2.00000*CONSTANTS[23])*CONSTANTS[60]; CONSTANTS[113] = ((1.00000+CONSTANTS[34])+ 2.00000*CONSTANTS[23])*CONSTANTS[60]; CONSTANTS[114] = ( ( (1.00000 - 0.500000*CONSTANTS[34])*(1.00000+ 2.00000*CONSTANTS[23]))*(1.00000+ 0.200000*CONSTANTS[35]))*CONSTANTS[62]; CONSTANTS[115] = CONSTANTS[63]*(1.00000 - 0.100000*CONSTANTS[34]); CONSTANTS[116] = (1.00000+ 0.400000*CONSTANTS[34])*CONSTANTS[65]; CONSTANTS[117] = 11.0000*(1.00000 - 0.250000*CONSTANTS[23]); CONSTANTS[118] = (exp(CONSTANTS[53]/67.3000) - 1.00000)/7.00000; CONSTANTS[119] = CONSTANTS[76]*CONSTANTS[34]; CONSTANTS[120] = (1.00000 - 0.700000*CONSTANTS[34])*CONSTANTS[83]; CONSTANTS[121] = (2.50000 - 1.25000*CONSTANTS[23])*0.000246000; CONSTANTS[122] = ((10.0000+ 20.0000*CONSTANTS[34])+ ( 10.0000*CONSTANTS[23])*(1.00000 - CONSTANTS[34]))*1.00000; CONSTANTS[136] = 0.00000; CONSTANTS[123] = ( 0.0539000*0.0100000)*CONSTANTS[103]; CONSTANTS[124] = pow( CONSTANTS[81]*1.00000, 1.60000); CONSTANTS[125] = (1.00000/CONSTANTS[109])*log(CONSTANTS[78]/CONSTANTS[79]); CONSTANTS[126] = 0.650000*CONSTANTS[103]; CONSTANTS[127] = 1.00000 - CONSTANTS[42]; CONSTANTS[128] = (( 0.00165000*CONSTANTS[126])/CONSTANTS[123])*0.100000; CONSTANTS[129] = (( 0.00460000*CONSTANTS[126])/CONSTANTS[123])*0.100000; CONSTANTS[130] = 0.0200000*CONSTANTS[103]; CONSTANTS[131] = 0.0350000*CONSTANTS[103]; CONSTANTS[132] = (CONSTANTS[85] - 310.000)/10.0000; CONSTANTS[133] = (CONSTANTS[126]/CONSTANTS[130])*0.0134000; CONSTANTS[134] = (CONSTANTS[126]/CONSTANTS[130])*0.0374000; CONSTANTS[135] = (CONSTANTS[126]/CONSTANTS[131])*0.140000; STATES[41] = 0.1001; STATES[42] = 0.1001; STATES[43] = 0.1001; RATES[0] = 0.1001; RATES[10] = 0.1001; RATES[8] = 0.1001; RATES[9] = 0.1001; RATES[1] = 0.1001; RATES[2] = 0.1001; RATES[7] = 0.1001; RATES[5] = 0.1001; RATES[3] = 0.1001; RATES[6] = 0.1001; RATES[4] = 0.1001; RATES[14] = 0.1001; RATES[15] = 0.1001; RATES[11] = 0.1001; RATES[12] = 0.1001; RATES[13] = 0.1001; RATES[18] = 0.1001; RATES[19] = 0.1001; RATES[21] = 0.1001; RATES[22] = 0.1001; RATES[23] = 0.1001; RATES[24] = 0.1001; RATES[26] = 0.1001; RATES[27] = 0.1001; RATES[29] = 0.1001; RATES[30] = 0.1001; RATES[31] = 0.1001; RATES[32] = 0.1001; RATES[33] = 0.1001; RATES[34] = 0.1001; RATES[35] = 0.1001; RATES[36] = 0.1001; RATES[37] = 0.1001; RATES[20] = 0.1001; RATES[38] = 0.1001; RATES[39] = 0.1001; RATES[40] = 0.1001; RATES[28] = 0.1001; RATES[16] = 0.1001; RATES[17] = 0.1001; } void computeResiduals(double VOI, double* CONSTANTS, double* RATES, double* OLDRATES, double* STATES, double* OLDSTATES, double* ALGEBRAIC, double* CONDVARS) { resid[0] = RATES[0] - ( CONSTANTS[13]*STATES[11])*(CONSTANTS[0] - STATES[0]) - CONSTANTS[5]*STATES[0]; resid[1] = STATES[41] - (((((RATES[10]+RATES[8])+RATES[9])+RATES[0])+RATES[1])+RATES[2])+RATES[7]; resid[2] = STATES[42] - RATES[5]+RATES[3]; resid[3] = STATES[43] - RATES[6]+RATES[4]; resid[4] = RATES[1] - ( CONSTANTS[14]*STATES[11])*((CONSTANTS[4] - STATES[1]) - STATES[2]) - CONSTANTS[6]*STATES[1]; resid[5] = RATES[2] - ( CONSTANTS[15]*CONSTANTS[22])*((CONSTANTS[4] - STATES[1]) - STATES[2]) - CONSTANTS[7]*STATES[2]; resid[6] = RATES[3] - ( CONSTANTS[16]*STATES[12])*(CONSTANTS[128] - STATES[3]) - CONSTANTS[8]*STATES[3]; resid[7] = RATES[4] - ( CONSTANTS[16]*STATES[13])*(CONSTANTS[133] - STATES[4]) - CONSTANTS[8]*STATES[4]; resid[8] = RATES[5] - ( CONSTANTS[17]*STATES[12])*(CONSTANTS[129] - STATES[5]) - CONSTANTS[9]*STATES[5]; resid[9] = RATES[6] - ( CONSTANTS[17]*STATES[13])*(CONSTANTS[134] - STATES[6]) - CONSTANTS[9]*STATES[6]; resid[10] = RATES[7] - ( CONSTANTS[18]*STATES[11])*(CONSTANTS[1] - STATES[7]) - CONSTANTS[10]*STATES[7]; resid[11] = RATES[8] - ( CONSTANTS[19]*STATES[11])*((CONSTANTS[2] - STATES[8]) - STATES[9]) - CONSTANTS[11]*STATES[8]; resid[12] = RATES[9] - ( CONSTANTS[20]*CONSTANTS[22])*((CONSTANTS[2] - STATES[8]) - STATES[9]) - CONSTANTS[12]*STATES[9]; resid[13] = RATES[10] - ( CONSTANTS[21]*STATES[11])*(CONSTANTS[3] - STATES[10]) - CONSTANTS[102]*STATES[10]; resid[14] = RATES[14] - ( CONSTANTS[27]*STATES[16])*(CONSTANTS[24] - STATES[14]) - CONSTANTS[26]*STATES[14]; resid[15] = RATES[15] - ( CONSTANTS[27]*STATES[17])*(CONSTANTS[25] - STATES[15]) - CONSTANTS[26]*STATES[15]; resid[16] = RATES[11] - (( - ALGEBRAIC[60]*CONSTANTS[131])/CONSTANTS[126] - STATES[41])+ (CONSTANTS[28]/CONSTANTS[126])*(STATES[13] - STATES[11]); resid[17] = RATES[12] - (((( - ALGEBRAIC[98]*CONSTANTS[29])/( ( CONSTANTS[123]*2.00000)*CONSTANTS[31])+ (CONSTANTS[30]/CONSTANTS[123])*(STATES[13] - STATES[12])) - STATES[42])+( ALGEBRAIC[58]*CONSTANTS[131])/CONSTANTS[123])+( ALGEBRAIC[59]*CONSTANTS[126])/CONSTANTS[123]; resid[18] = RATES[13] - ((( - ALGEBRAIC[99]*CONSTANTS[29])/( ( CONSTANTS[130]*2.00000)*CONSTANTS[31])+ (CONSTANTS[30]/CONSTANTS[130])*(STATES[12] - STATES[13]))+ (CONSTANTS[28]/CONSTANTS[130])*(STATES[11] - STATES[13])) - STATES[43]; resid[19] = RATES[18] - (ALGEBRAIC[60] - (( ALGEBRAIC[59]*CONSTANTS[126])/CONSTANTS[131]+ALGEBRAIC[58])) - RATES[19]; resid[20] = RATES[19] - ( CONSTANTS[33]*STATES[18])*(CONSTANTS[135] - STATES[19]) - CONSTANTS[32]*STATES[19]; resid[21] = RATES[21] - (ALGEBRAIC[5] - STATES[21])/ALGEBRAIC[6]; resid[22] = RATES[22] - (ALGEBRAIC[7] - STATES[22])/ALGEBRAIC[8]; resid[23] = RATES[23] - ( ( 1.70000*STATES[12])*(1.00000 - STATES[23]) - 0.0119000*STATES[23])*1.00000; resid[24] = RATES[24] - ( ( 1.70000*STATES[13])*(1.00000 - STATES[24]) - 0.0119000*STATES[24])*1.00000; resid[25] = RATES[26] - (ALGEBRAIC[14] - STATES[26])/ALGEBRAIC[15]; resid[26] = RATES[27] - (ALGEBRAIC[19] - STATES[27])/ALGEBRAIC[20]; resid[27] = RATES[29] - (ALGEBRAIC[21] - STATES[29])/ALGEBRAIC[22]; resid[28] = RATES[30] - (ALGEBRAIC[23] - STATES[30])/ALGEBRAIC[24]; resid[29] = RATES[31] - (ALGEBRAIC[27] - STATES[31])/ALGEBRAIC[28]; resid[30] = RATES[32] - (ALGEBRAIC[31] - STATES[32])/ALGEBRAIC[32]; resid[31] = RATES[33] - (ALGEBRAIC[33] - STATES[33])/ALGEBRAIC[34]; resid[32] = RATES[34] - (ALGEBRAIC[44] - STATES[34])/CONSTANTS[77]; resid[33] = RATES[35] - ALGEBRAIC[45]*(1.00000 - STATES[35]) - ALGEBRAIC[46]*STATES[35]; resid[34] = RATES[36] - (ALGEBRAIC[49] - STATES[36])/ALGEBRAIC[50]; resid[35] = RATES[37] - (ALGEBRAIC[51] - STATES[37])/ALGEBRAIC[52]; resid[36] = RATES[20] - - (ALGEBRAIC[116]+ALGEBRAIC[97]); resid[37] = RATES[38] - ( ( ALGEBRAIC[63]*STATES[12])*STATES[39] - CONSTANTS[95]*STATES[38]) - ( CONSTANTS[96]*STATES[38] - ( ALGEBRAIC[64]*pow(STATES[12], 2.00000))*ALGEBRAIC[61]); resid[38] = RATES[39] - ( ( ALGEBRAIC[64]*pow(STATES[12], 2.00000))*STATES[40] - CONSTANTS[96]*STATES[39]) - ( ( ALGEBRAIC[63]*STATES[12])*STATES[39] - CONSTANTS[95]*STATES[38]); resid[39] = RATES[40] - ( CONSTANTS[95]*ALGEBRAIC[61] - ( ALGEBRAIC[63]*STATES[12])*STATES[40]) - ( ( ALGEBRAIC[64]*pow(STATES[12], 2.00000))*STATES[40] - CONSTANTS[96]*STATES[39]); resid[40] = RATES[28] - (CONSTANTS[37]/CONSTANTS[126])*(STATES[17] - STATES[28]); resid[41] = RATES[16] - (( - ALGEBRAIC[95]*CONSTANTS[29])/( CONSTANTS[123]*CONSTANTS[31])+ (CONSTANTS[36]/CONSTANTS[123])*(STATES[17] - STATES[16])) - RATES[14]; resid[42] = RATES[17] - ((( - ALGEBRAIC[96]*CONSTANTS[29])/( CONSTANTS[130]*CONSTANTS[31])+ (CONSTANTS[36]/CONSTANTS[130])*(STATES[16] - STATES[17]))+ (CONSTANTS[37]/CONSTANTS[130])*(STATES[28] - STATES[17])) - RATES[15]; resid[43] = RATES[25] - CONSTANTS[136]; } void computeVariables(double VOI, double* CONSTANTS, double* RATES, double* STATES, double* ALGEBRAIC) { ALGEBRAIC[100] = ALGEBRAIC[66]+ALGEBRAIC[67]; ALGEBRAIC[101] = ALGEBRAIC[68]+ALGEBRAIC[69]; ALGEBRAIC[102] = ALGEBRAIC[71]+ALGEBRAIC[72]; ALGEBRAIC[105] = ALGEBRAIC[81]+ALGEBRAIC[82]; ALGEBRAIC[106] = ALGEBRAIC[83]+ALGEBRAIC[84]; ALGEBRAIC[107] = ALGEBRAIC[85]+ALGEBRAIC[86]; ALGEBRAIC[109] = ALGEBRAIC[89]+ALGEBRAIC[90]; ALGEBRAIC[110] = ALGEBRAIC[91]+ALGEBRAIC[92]; ALGEBRAIC[113] = (ALGEBRAIC[101]+ALGEBRAIC[70])+ALGEBRAIC[102]; } void computeEssentialVariables(double VOI, double* CONSTANTS, double* RATES, double* STATES, double* ALGEBRAIC) { ALGEBRAIC[5] = 1.00000/(1.00000+exp(- ((STATES[20]+ 3.00000*CONSTANTS[23])+9.00000)/6.00000)); ALGEBRAIC[6] = ( ALGEBRAIC[5]*(1.00000 - exp(- ((STATES[20]+ 3.00000*CONSTANTS[23])+9.00000)/6.00000)))/( 0.0350000*((STATES[20]+ 3.00000*CONSTANTS[23])+9.00000)); ALGEBRAIC[7] = 1.00000/(1.00000+exp(((STATES[20]+ 3.00000*CONSTANTS[23])+30.0000)/7.00000))+0.200000/(1.00000+exp(((50.0000 - STATES[20]) - 3.00000*CONSTANTS[23])/20.0000)); ALGEBRAIC[8] = 1.00000/( 0.0197000*exp(- pow( 0.0337000*((STATES[20]+ 3.00000*CONSTANTS[23])+25.0000), 2.00000))+0.0200000); ALGEBRAIC[14] = 1.00000/(1.00000+exp(- (STATES[20]+10.0000)/5.00000)); ALGEBRAIC[15] = ( ((550.000)/(1.00000+exp((- 22.0000 - STATES[20])/9.00000)))*6.00000)/(1.00000+exp((STATES[20]+11.0000)/9.00000))+230.000/(1.00000+exp((STATES[20]+40.0000)/20.0000)); ALGEBRAIC[19] = 1.00000/(1.00000+exp(- ((STATES[20]+ 40.0000*CONSTANTS[23])+3.80000)/14.2500)); ALGEBRAIC[20] = 990.100/(1.00000+exp(- ((STATES[20]+ 40.0000*CONSTANTS[23])+2.43600)/14.1200)); ALGEBRAIC[21] = 1.00000/(1.00000+exp((STATES[20]+6.00000)/- 8.60000)); ALGEBRAIC[22] = 9.00000/(1.00000+exp((STATES[20]+5.00000)/12.0000))+0.500000; ALGEBRAIC[23] = 1.00000/(1.00000+exp((STATES[20]+7.50000)/10.0000)); ALGEBRAIC[24] = 590.000/(1.00000+exp((STATES[20]+60.0000)/10.0000))+3050.00; ALGEBRAIC[27] = 1.00000/pow(1.00000+exp((STATES[20]+71.5500)/7.43000), 2.00000); ALGEBRAIC[25] = (CONDVAR[0]>=0.00000 ? 0.00000 : 0.0570000*exp(- (STATES[20]+80.0000)/6.80000))*1.00000; ALGEBRAIC[26] = (CONDVAR[1]>=0.00000 ? 0.770000/( 0.130000*(1.00000+exp(- (STATES[20]+10.6600)/11.1000))) : 2.70000*exp( 0.0790000*STATES[20])+ ( 3.10000*pow(10.0000, 5.00000))*exp( 0.348500*STATES[20]))*1.00000; ALGEBRAIC[28] = 1.00000/(ALGEBRAIC[25]+ALGEBRAIC[26]); ALGEBRAIC[31] = 1.00000/pow(1.00000+exp((STATES[20]+71.5500)/7.43000), 2.00000); ALGEBRAIC[29] = (CONDVAR[2]>=0.00000 ? 0.00000 : (( ( ( - 2.54280*pow(10.0000, 4.00000))*exp( 0.244400*STATES[20]) - ( 6.94800*pow(10.0000, - 6.00000))*exp( - 0.0439100*STATES[20]))*(STATES[20]+37.7800))/(1.00000+exp( 0.311000*(STATES[20]+79.2300))))*1.00000)*1.00000; ALGEBRAIC[30] = (CONDVAR[3]>=0.00000 ? ( 0.600000*exp( 0.0570000*STATES[20]))/(1.00000+exp( - 0.100000*(STATES[20]+32.0000))) : ( 0.0242400*exp( - 0.0105200*STATES[20]))/(1.00000+exp( - 0.137800*(STATES[20]+40.1400))))*1.00000; ALGEBRAIC[32] = 1.00000/(ALGEBRAIC[29]+ALGEBRAIC[30]); ALGEBRAIC[33] = 1.00000/pow(1.00000+exp(- (56.8600+STATES[20])/9.03000), 2.00000); ALGEBRAIC[34] = 0.129200*exp(- pow((STATES[20]+45.7900)/15.5400, 2.00000))+ 0.0648700*exp(- pow((STATES[20] - 4.82300)/51.1200, 2.00000)); ALGEBRAIC[44] = 1.00000/(1.00000+exp((STATES[20]+91.0000)/6.10000)); ALGEBRAIC[45] = ( 0.320000*(STATES[20]+47.1300))/(1.00000 - exp( - 0.100000*(STATES[20]+47.1300))); ALGEBRAIC[46] = 0.0800000*exp(- STATES[20]/11.0000); ALGEBRAIC[49] = 1.00000/(1.00000+exp(- (STATES[20]+1.00000)/11.0000)); ALGEBRAIC[50] = 3.50000*exp(- pow(STATES[20]/30.0000, 2.00000))+1.50000; ALGEBRAIC[51] = 1.00000/(1.00000+exp((STATES[20]+40.5000)/11.5000)); ALGEBRAIC[52] = 25.6350*exp(- pow((STATES[20]+52.4500)/15.8827, 2.00000))+24.1400; ALGEBRAIC[58] = ( CONSTANTS[97]*STATES[39])*(STATES[18] - STATES[12]); ALGEBRAIC[59] = ( (1.00000+ 0.250000*CONSTANTS[34])*(STATES[18] - STATES[12]))*CONSTANTS[86]; ALGEBRAIC[60] = ( ( pow(CONSTANTS[90], CONSTANTS[132])*CONSTANTS[91])*(pow(STATES[11]/CONSTANTS[121], CONSTANTS[93]) - pow(STATES[18]/CONSTANTS[87], CONSTANTS[93])))/((1.00000+pow(STATES[11]/CONSTANTS[121], CONSTANTS[93]))+pow(STATES[18]/CONSTANTS[87], CONSTANTS[93])); ALGEBRAIC[61] = ((1.00000 - STATES[40]) - STATES[39]) - STATES[38]; ALGEBRAIC[62] = CONSTANTS[88] - (CONSTANTS[88] - CONSTANTS[89])/(1.00000+pow(CONSTANTS[92]/STATES[18], 2.50000)); ALGEBRAIC[63] = CONSTANTS[94]*ALGEBRAIC[62]; ALGEBRAIC[64] = CONSTANTS[122]/ALGEBRAIC[62]; ALGEBRAIC[35] = 1.00000/(1.00000+pow(CONSTANTS[66]/STATES[12], 2.00000)); ALGEBRAIC[37] = ( exp( ( CONSTANTS[73]*STATES[20])*CONSTANTS[109])*pow(STATES[16], 3.00000))*CONSTANTS[51]; ALGEBRAIC[38] = ( exp( ( (CONSTANTS[73] - 1.00000)*STATES[20])*CONSTANTS[109])*pow(CONSTANTS[53], 3.00000))*STATES[12]; ALGEBRAIC[39] = ((( ( CONSTANTS[67]*pow(CONSTANTS[53], 3.00000))*(1.00000+pow(STATES[16]/CONSTANTS[69], 3.00000))+ ( pow(CONSTANTS[70], 3.00000)*STATES[12])*(1.00000+STATES[12]/CONSTANTS[67]))+ CONSTANTS[68]*pow(STATES[16], 3.00000))+ pow(STATES[16], 3.00000)*CONSTANTS[51])+ pow(CONSTANTS[53], 3.00000)*STATES[12]; ALGEBRAIC[85] = (( ( ( ( CONSTANTS[42]*CONSTANTS[116])*pow(CONSTANTS[71], CONSTANTS[132]))*ALGEBRAIC[35])*(ALGEBRAIC[37] - ALGEBRAIC[38]))/ALGEBRAIC[39])/(1.00000+ CONSTANTS[72]*exp( ( (CONSTANTS[73] - 1.00000)*STATES[20])*CONSTANTS[109])); ALGEBRAIC[3] = (( ( ( ( CONSTANTS[107]*STATES[20])*CONSTANTS[31])*CONSTANTS[109])*( ( 0.750000*STATES[16])*exp( STATES[20]*CONSTANTS[109]) - 0.750000*CONSTANTS[53]))/(exp( STATES[20]*CONSTANTS[109]) - 1.00000))*CONSTANTS[44]; ALGEBRAIC[71] = ( ( ( ( ( CONSTANTS[50]*ALGEBRAIC[3])*STATES[21])*STATES[22])*((1.00000 - STATES[23])+CONSTANTS[46]))*pow(CONSTANTS[43], CONSTANTS[132]))*0.450000; ALGEBRAIC[56] = (1.00000/CONSTANTS[109])*log(CONSTANTS[53]/STATES[16]); ALGEBRAIC[81] = ( ( ( ( CONSTANTS[42]*CONSTANTS[115])*pow(STATES[33], 3.00000))*STATES[31])*STATES[32])*(STATES[20] - ALGEBRAIC[56]); ALGEBRAIC[83] = ( CONSTANTS[42]*CONSTANTS[64])*(STATES[20] - ALGEBRAIC[56]); ALGEBRAIC[43] = 1.00000/((1.00000+ 0.124500*exp( ( - 0.100000*STATES[20])*CONSTANTS[109]))+ ( 0.0365000*CONSTANTS[118])*exp( - STATES[20]*CONSTANTS[109])); ALGEBRAIC[87] = (( ( ( CONSTANTS[42]*CONSTANTS[74])*ALGEBRAIC[43])*CONSTANTS[52])/(1.00000+pow(CONSTANTS[117]/STATES[16], 4.00000)))/(CONSTANTS[52]+CONSTANTS[75]); ALGEBRAIC[89] = ( ( ( CONSTANTS[42]*CONSTANTS[119])*pow(STATES[35], 3.00000))*STATES[34])*(STATES[20] - ALGEBRAIC[56]); ALGEBRAIC[95] = ((((ALGEBRAIC[81]+ALGEBRAIC[83])+ 3.00000*ALGEBRAIC[85])+ 3.00000*ALGEBRAIC[87])+ALGEBRAIC[71])+ALGEBRAIC[89]; ALGEBRAIC[36] = 1.00000/(1.00000+pow(CONSTANTS[66]/STATES[13], 2.00000)); ALGEBRAIC[40] = ( exp( ( CONSTANTS[73]*STATES[20])*CONSTANTS[109])*pow(STATES[17], 3.00000))*CONSTANTS[51]; ALGEBRAIC[41] = ( exp( ( (CONSTANTS[73] - 1.00000)*STATES[20])*CONSTANTS[109])*pow(CONSTANTS[53], 3.00000))*STATES[13]; ALGEBRAIC[42] = ((( ( CONSTANTS[67]*pow(CONSTANTS[53], 3.00000))*(1.00000+pow(STATES[17]/CONSTANTS[69], 3.00000))+ ( pow(CONSTANTS[70], 3.00000)*STATES[13])*(1.00000+STATES[13]/CONSTANTS[67]))+ CONSTANTS[68]*pow(STATES[17], 3.00000))+ pow(STATES[17], 3.00000)*CONSTANTS[51])+ pow(CONSTANTS[53], 3.00000)*STATES[13]; ALGEBRAIC[86] = (( ( ( ( CONSTANTS[127]*CONSTANTS[116])*pow(CONSTANTS[71], CONSTANTS[132]))*ALGEBRAIC[36])*(ALGEBRAIC[40] - ALGEBRAIC[41]))/ALGEBRAIC[42])/(1.00000+ CONSTANTS[72]*exp( ( (CONSTANTS[73] - 1.00000)*STATES[20])*CONSTANTS[109])); ALGEBRAIC[4] = (( ( ( ( CONSTANTS[107]*STATES[20])*CONSTANTS[31])*CONSTANTS[109])*( ( 0.750000*STATES[17])*exp( STATES[20]*CONSTANTS[109]) - 0.750000*CONSTANTS[53]))/(exp( STATES[20]*CONSTANTS[109]) - 1.00000))*CONSTANTS[44]; ALGEBRAIC[72] = ( ( ( ( ( CONSTANTS[108]*ALGEBRAIC[4])*STATES[21])*STATES[22])*((1.00000 - STATES[24])+CONSTANTS[45]))*pow(CONSTANTS[43], CONSTANTS[132]))*0.450000; ALGEBRAIC[57] = (1.00000/CONSTANTS[109])*log(CONSTANTS[53]/STATES[17]); ALGEBRAIC[82] = ( ( ( ( CONSTANTS[127]*CONSTANTS[115])*pow(STATES[33], 3.00000))*STATES[31])*STATES[32])*(STATES[20] - ALGEBRAIC[57]); ALGEBRAIC[84] = ( CONSTANTS[127]*CONSTANTS[64])*(STATES[20] - ALGEBRAIC[57]); ALGEBRAIC[88] = (( ( ( CONSTANTS[127]*CONSTANTS[74])*ALGEBRAIC[43])*CONSTANTS[52])/(1.00000+pow(CONSTANTS[117]/STATES[17], 4.00000)))/(CONSTANTS[52]+CONSTANTS[75]); ALGEBRAIC[90] = ( ( ( CONSTANTS[127]*CONSTANTS[119])*pow(STATES[35], 3.00000))*STATES[34])*(STATES[20] - ALGEBRAIC[57]); ALGEBRAIC[96] = ((((ALGEBRAIC[82]+ALGEBRAIC[84])+ 3.00000*ALGEBRAIC[86])+ 3.00000*ALGEBRAIC[88])+ALGEBRAIC[72])+ALGEBRAIC[90]; ALGEBRAIC[65] = (CONDVAR[4]<0.00000 ? 1.00000 : 0.00000); ALGEBRAIC[97] = ALGEBRAIC[65]*CONSTANTS[98]; ALGEBRAIC[53] = ((1.00000/CONSTANTS[109])/2.00000)*log(CONSTANTS[51]/STATES[12]); ALGEBRAIC[66] = ( CONSTANTS[42]*CONSTANTS[41])*(STATES[20] - ALGEBRAIC[53]); ALGEBRAIC[0] = (( ( ( CONSTANTS[105]*4.00000)*( ( STATES[20]*CONSTANTS[31])*CONSTANTS[109]))*( ( 0.341000*STATES[12])*exp( ( 2.00000*STATES[20])*CONSTANTS[109]) - 0.341000*CONSTANTS[51]))/(exp( ( 2.00000*STATES[20])*CONSTANTS[109]) - 1.00000))*CONSTANTS[44]; ALGEBRAIC[68] = ( ( ( ( ( CONSTANTS[50]*ALGEBRAIC[0])*STATES[21])*STATES[22])*((1.00000 - STATES[23])+CONSTANTS[46]))*pow(CONSTANTS[43], CONSTANTS[132]))*0.450000; ALGEBRAIC[47] = pow( STATES[12]*1.00000, 1.60000); ALGEBRAIC[91] = ( ( ( CONSTANTS[42]*pow(CONSTANTS[82], CONSTANTS[132]))*CONSTANTS[80])*ALGEBRAIC[47])/(ALGEBRAIC[47]+CONSTANTS[104]); ALGEBRAIC[98] = ((ALGEBRAIC[68]+ALGEBRAIC[66])+ALGEBRAIC[91]) - 2.00000*ALGEBRAIC[85]; ALGEBRAIC[54] = ((1.00000/CONSTANTS[109])/2.00000)*log(CONSTANTS[51]/STATES[13]); ALGEBRAIC[67] = ( CONSTANTS[127]*CONSTANTS[41])*(STATES[20] - ALGEBRAIC[54]); ALGEBRAIC[1] = (( ( ( CONSTANTS[105]*4.00000)*( ( STATES[20]*CONSTANTS[31])*CONSTANTS[109]))*( ( 0.341000*STATES[13])*exp( ( 2.00000*STATES[20])*CONSTANTS[109]) - 0.341000*CONSTANTS[51]))/(exp( ( 2.00000*STATES[20])*CONSTANTS[109]) - 1.00000))*CONSTANTS[44]; ALGEBRAIC[69] = ( ( ( ( ( CONSTANTS[108]*ALGEBRAIC[1])*STATES[21])*STATES[22])*((1.00000 - STATES[24])+CONSTANTS[45]))*pow(CONSTANTS[43], CONSTANTS[132]))*0.450000; ALGEBRAIC[48] = pow( STATES[13]*1.00000, 1.60000); ALGEBRAIC[92] = ( ( ( CONSTANTS[127]*pow(CONSTANTS[82], CONSTANTS[132]))*CONSTANTS[80])*ALGEBRAIC[48])/(ALGEBRAIC[48]+CONSTANTS[124]); ALGEBRAIC[99] = ((ALGEBRAIC[69]+ALGEBRAIC[67])+ALGEBRAIC[92]) - 2.00000*ALGEBRAIC[86]; ALGEBRAIC[111] = ALGEBRAIC[98]+ALGEBRAIC[99]; ALGEBRAIC[9] = CONSTANTS[54]*(STATES[20] - CONSTANTS[125]); ALGEBRAIC[10] = (( CONSTANTS[42]*CONSTANTS[55])/(1.00000+CONSTANTS[56]/STATES[12]))*(STATES[20] - CONSTANTS[125]); ALGEBRAIC[11] = (( CONSTANTS[127]*CONSTANTS[55])/(1.00000+CONSTANTS[56]/STATES[13]))*(STATES[20] - CONSTANTS[125]); ALGEBRAIC[73] = ALGEBRAIC[10]+ALGEBRAIC[11]; ALGEBRAIC[94] = ALGEBRAIC[73]+ALGEBRAIC[9]; ALGEBRAIC[112] = ALGEBRAIC[95]+ALGEBRAIC[96]; ALGEBRAIC[2] = (( ( ( ( CONSTANTS[106]*STATES[20])*CONSTANTS[31])*CONSTANTS[109])*( ( 0.750000*STATES[25])*exp( STATES[20]*CONSTANTS[109]) - 0.750000*CONSTANTS[52]))/(exp( STATES[20]*CONSTANTS[109]) - 1.00000))*CONSTANTS[44]; ALGEBRAIC[70] = ( ( ( ( ALGEBRAIC[2]*STATES[21])*STATES[22])*( CONSTANTS[50]*(CONSTANTS[46]+(1.00000 - STATES[23]))+ CONSTANTS[108]*(CONSTANTS[45]+(1.00000 - STATES[24]))))*pow(CONSTANTS[43], CONSTANTS[132]))*0.450000; ALGEBRAIC[55] = (1.00000/CONSTANTS[109])*log(CONSTANTS[52]/STATES[25]); ALGEBRAIC[74] = 1.00000*(1.02000/(1.00000+exp( 0.238500*((STATES[20] - ALGEBRAIC[55]) - 59.2150)))); ALGEBRAIC[75] = 1.00000*(( 0.491240*exp( 0.0803200*((STATES[20]+5.47600) - ALGEBRAIC[55]))+exp( 0.0617500*((STATES[20] - ALGEBRAIC[55]) - 594.310)))/(1.00000+exp( - 0.514300*((STATES[20] - ALGEBRAIC[55])+4.75300)))); ALGEBRAIC[103] = ALGEBRAIC[74]/(ALGEBRAIC[74]+ALGEBRAIC[75]); ALGEBRAIC[114] = ( CONSTANTS[110]*ALGEBRAIC[103])*(STATES[20] - ALGEBRAIC[55]); ALGEBRAIC[12] = 1.00000/(1.00000+exp(7.48800 - STATES[20]/5.98000)); ALGEBRAIC[76] = ( ( CONSTANTS[42]*CONSTANTS[58])*ALGEBRAIC[12])*(STATES[20] - ALGEBRAIC[55]); ALGEBRAIC[77] = ( ( CONSTANTS[127]*CONSTANTS[58])*ALGEBRAIC[12])*(STATES[20] - ALGEBRAIC[55]); ALGEBRAIC[104] = ALGEBRAIC[76]+ALGEBRAIC[77]; ALGEBRAIC[13] = 1.00000/(1.00000+exp((STATES[20]+74.0000)/24.0000)); ALGEBRAIC[78] = ( ( CONSTANTS[111]*STATES[26])*ALGEBRAIC[13])*(STATES[20] - ALGEBRAIC[55]); ALGEBRAIC[16] = (1.00000/CONSTANTS[109])*log((CONSTANTS[52]+ CONSTANTS[61]*CONSTANTS[53])/(STATES[25]+ CONSTANTS[61]*STATES[28])); ALGEBRAIC[17] = ( ( CONSTANTS[42]*CONSTANTS[112])*pow(STATES[27], 2.00000))*(STATES[20] - ALGEBRAIC[16]); ALGEBRAIC[18] = ( ( CONSTANTS[127]*CONSTANTS[113])*pow(STATES[27], 2.00000))*(STATES[20] - ALGEBRAIC[16]); ALGEBRAIC[79] = ALGEBRAIC[17]+ALGEBRAIC[18]; ALGEBRAIC[80] = ( ( CONSTANTS[114]*STATES[29])*STATES[30])*(STATES[20] - ALGEBRAIC[55]); ALGEBRAIC[108] = ALGEBRAIC[87]+ALGEBRAIC[88]; ALGEBRAIC[93] = ( ( CONSTANTS[120]*STATES[36])*STATES[37])*(STATES[20] - ALGEBRAIC[55]); ALGEBRAIC[115] = ((((((ALGEBRAIC[93]+ALGEBRAIC[78])+ALGEBRAIC[79])+ALGEBRAIC[114]) - 2.00000*ALGEBRAIC[108])+ALGEBRAIC[70])+ALGEBRAIC[104])+ALGEBRAIC[80]; ALGEBRAIC[116] = ((ALGEBRAIC[112]+ALGEBRAIC[94])+ALGEBRAIC[111])+ALGEBRAIC[115]; } void getStateInformation(double* SI) { SI[0] = 1.0; SI[41] = 0.0; SI[42] = 0.0; SI[43] = 0.0; SI[1] = 1.0; SI[2] = 1.0; SI[3] = 1.0; SI[4] = 1.0; SI[5] = 1.0; SI[6] = 1.0; SI[7] = 1.0; SI[8] = 1.0; SI[9] = 1.0; SI[10] = 1.0; SI[11] = 1.0; SI[12] = 1.0; SI[13] = 1.0; SI[14] = 1.0; SI[15] = 1.0; SI[16] = 1.0; SI[17] = 1.0; SI[18] = 1.0; SI[19] = 1.0; SI[20] = 1.0; SI[21] = 1.0; SI[22] = 1.0; SI[23] = 1.0; SI[24] = 1.0; SI[25] = 1.0; SI[26] = 1.0; SI[27] = 1.0; SI[28] = 1.0; SI[29] = 1.0; SI[30] = 1.0; SI[31] = 1.0; SI[32] = 1.0; SI[33] = 1.0; SI[34] = 1.0; SI[35] = 1.0; SI[36] = 1.0; SI[37] = 1.0; SI[38] = 1.0; SI[39] = 1.0; SI[40] = 1.0; } void computeRoots(double VOI, double* CONSTANTS, double* RATES, double* OLDRATES, double* STATES, double* OLDSTATES, double* ALGEBRAIC, double* CONDVARS) { CONDVAR[0] = STATES[20] - - 40.0000; CONDVAR[1] = STATES[20] - - 40.0000; CONDVAR[2] = STATES[20] - - 40.0000; CONDVAR[3] = STATES[20] - - 40.0000; CONDVAR[4] = ((VOI - CONSTANTS[100]) - CONSTANTS[101]*floor((VOI - CONSTANTS[100])/CONSTANTS[101])) - CONSTANTS[99]; }