/* There are a total of 80 entries in the algebraic variable array. There are a total of 38 entries in each of the rate and state variable arrays. There are a total of 65 entries in the constant variable array. */ /* * VOI is time in component environment (millisecond). * STATES[0] is V in component membrane (millivolt). * CONSTANTS[0] is R in component membrane (joule_per_mole_kelvin). * CONSTANTS[1] is T in component membrane (kelvin). * CONSTANTS[2] is F in component membrane (coulomb_per_millimole). * CONSTANTS[3] is Cm in component membrane (picoF). * ALGEBRAIC[2] is I_stim in component I_stim (picoA). * ALGEBRAIC[79] is i_Na in component sodium_current (picoA). * ALGEBRAIC[4] is i_Ca_L in component L_type_Ca_channel (picoA). * ALGEBRAIC[28] is i_Ca_T in component T_type_Ca_channel (picoA). * ALGEBRAIC[78] is i_Kv in component voltage_dep_K_channel (picoA). * ALGEBRAIC[36] is i_BK in component Calcium_voltage_activated_potassium_channel (picoA). * ALGEBRAIC[72] is i_NCX in component Na_Ca_exchanger (picoA). * ALGEBRAIC[73] is i_NaK in component sodium_potassium_pump (picoA). * ALGEBRAIC[77] is i_NsK in component non_specific_K_current (picoA). * ALGEBRAIC[75] is i_NsNa in component non_specific_Na_current (picoA). * ALGEBRAIC[1] is local_time in component I_stim (millisecond). * CONSTANTS[4] is period in component I_stim (millisecond). * ALGEBRAIC[0] is stim_start in component I_stim (millisecond). * CONSTANTS[5] is Gcouple in component I_stim (nanoS). * CONSTANTS[6] is t_ICCpeak in component I_stim (millisecond). * CONSTANTS[7] is t_ICCplateau in component I_stim (millisecond). * CONSTANTS[8] is t_slope in component I_stim (millisecond). * CONSTANTS[9] is f_1 in component I_stim (millisecond). * CONSTANTS[10] is f_2 in component I_stim (millisecond). * CONSTANTS[11] is V_ICCrest in component I_stim (millivolt). * CONSTANTS[12] is V_ICCamp in component I_stim (millivolt). * ALGEBRAIC[3] is E_Ca in component L_type_Ca_channel (millivolt). * CONSTANTS[13] is g_CaL in component L_type_Ca_channel (nanoS). * CONSTANTS[14] is Cao in component ionic_concentrations (millimolar). * STATES[1] is Cai in component ionic_concentrations (millimolar). * STATES[2] is O_CaL in component L_type_Ca_channel_states (dimensionless). * STATES[3] is C0 in component L_type_Ca_channel_states (dimensionless). * STATES[4] is C1 in component L_type_Ca_channel_states (dimensionless). * STATES[5] is C2 in component L_type_Ca_channel_states (dimensionless). * STATES[6] is C3 in component L_type_Ca_channel_states (dimensionless). * STATES[7] is C0Ca in component L_type_Ca_channel_states (dimensionless). * STATES[8] is C1Ca in component L_type_Ca_channel_states (dimensionless). * STATES[9] is C2Ca in component L_type_Ca_channel_states (dimensionless). * STATES[10] is C3Ca in component L_type_Ca_channel_states (dimensionless). * STATES[11] is ICa in component L_type_Ca_channel_states (dimensionless). * STATES[12] is IVs in component L_type_Ca_channel_states (dimensionless). * STATES[13] is IVf in component L_type_Ca_channel_states (dimensionless). * STATES[14] is IVfCa in component L_type_Ca_channel_states (dimensionless). * STATES[15] is IVsCa in component L_type_Ca_channel_states (dimensionless). * ALGEBRAIC[5] is alpha in component L_type_Ca_channel_states (per_millisecond). * ALGEBRAIC[6] is beta in component L_type_Ca_channel_states (per_millisecond). * ALGEBRAIC[7] is alpha_0 in component L_type_Ca_channel_states (per_millisecond). * ALGEBRAIC[8] is alpha_1 in component L_type_Ca_channel_states (per_millisecond). * ALGEBRAIC[9] is alpha_2 in component L_type_Ca_channel_states (per_millisecond). * ALGEBRAIC[10] is alpha_3 in component L_type_Ca_channel_states (per_millisecond). * ALGEBRAIC[11] is beta_0 in component L_type_Ca_channel_states (per_millisecond). * ALGEBRAIC[12] is beta_1 in component L_type_Ca_channel_states (per_millisecond). * ALGEBRAIC[13] is beta_2 in component L_type_Ca_channel_states (per_millisecond). * ALGEBRAIC[14] is beta_3 in component L_type_Ca_channel_states (per_millisecond). * CONSTANTS[53] is delta in component L_type_Ca_channel_states (per_millisecond). * ALGEBRAIC[25] is theta in component L_type_Ca_channel_states (per_millisecond). * ALGEBRAIC[16] is phi_s in component L_type_Ca_channel_states (per_millisecond). * ALGEBRAIC[15] is phi_f in component L_type_Ca_channel_states (per_millisecond). * ALGEBRAIC[22] is omega_s in component L_type_Ca_channel_states (per_millisecond). * ALGEBRAIC[21] is omega_f in component L_type_Ca_channel_states (per_millisecond). * ALGEBRAIC[24] is omega_fs in component L_type_Ca_channel_states (per_millisecond). * ALGEBRAIC[23] is omega_sf in component L_type_Ca_channel_states (per_millisecond). * ALGEBRAIC[20] is psi_s in component L_type_Ca_channel_states (per_millisecond). * ALGEBRAIC[19] is psi_f in component L_type_Ca_channel_states (per_millisecond). * ALGEBRAIC[18] is xi_s in component L_type_Ca_channel_states (per_millisecond). * ALGEBRAIC[17] is xi_f in component L_type_Ca_channel_states (per_millisecond). * CONSTANTS[44] is T_correction_Ca in component L_type_Ca_channel_states (dimensionless). * CONSTANTS[15] is Q10Ca in component L_type_Ca_channel_states (dimensionless). * ALGEBRAIC[26] is norm in component L_type_Ca_channel_states (dimensionless). * CONSTANTS[16] is g_CaT in component T_type_Ca_channel (nanoS). * ALGEBRAIC[27] is E_Ca in component T_type_Ca_channel (millivolt). * STATES[16] is d_CaT in component T_type_Ca_channel_d_gate (dimensionless). * STATES[17] is f_CaT in component T_type_Ca_channel_f_gate (dimensionless). * ALGEBRAIC[29] is d_CaT_inf in component T_type_Ca_channel_d_gate (dimensionless). * CONSTANTS[54] is tau_d_CaT in component T_type_Ca_channel_d_gate (millisecond). * CONSTANTS[45] is T_correction_Ca in component T_type_Ca_channel_d_gate (dimensionless). * CONSTANTS[17] is Q10Ca in component T_type_Ca_channel_d_gate (dimensionless). * ALGEBRAIC[30] is f_CaT_inf in component T_type_Ca_channel_f_gate (dimensionless). * ALGEBRAIC[31] is tau_f_CaT in component T_type_Ca_channel_f_gate (millisecond). * CONSTANTS[46] is T_correction_Ca in component T_type_Ca_channel_f_gate (dimensionless). * CONSTANTS[18] is Q10Ca in component T_type_Ca_channel_f_gate (dimensionless). * CONSTANTS[19] is g_Kv in component voltage_dep_K_channel (nanoS). * ALGEBRAIC[32] is E_K in component voltage_dep_K_channel (millivolt). * STATES[18] is x_Kv in component voltage_dep_K_channel_x_gate (dimensionless). * STATES[19] is y_Kv in component voltage_dep_K_channel_y_gate (dimensionless). * CONSTANTS[20] is Ko in component ionic_concentrations (millimolar). * STATES[20] is Ki in component ionic_concentrations (millimolar). * ALGEBRAIC[33] is x_Kv_inf in component voltage_dep_K_channel_x_gate (dimensionless). * CONSTANTS[55] is tau_x_Kv in component voltage_dep_K_channel_x_gate (millisecond). * CONSTANTS[47] is T_correction_K in component voltage_dep_K_channel_x_gate (dimensionless). * CONSTANTS[21] is Q10K in component voltage_dep_K_channel_x_gate (dimensionless). * ALGEBRAIC[34] is y_Kv_inf in component voltage_dep_K_channel_y_gate (dimensionless). * CONSTANTS[56] is tau_y_Kv in component voltage_dep_K_channel_y_gate (millisecond). * CONSTANTS[48] is T_correction_K in component voltage_dep_K_channel_y_gate (dimensionless). * CONSTANTS[22] is Q10K in component voltage_dep_K_channel_y_gate (dimensionless). * ALGEBRAIC[35] is E_K in component Calcium_voltage_activated_potassium_channel (millivolt). * CONSTANTS[23] is g_BK in component Calcium_voltage_activated_potassium_channel (nanoS). * STATES[21] is O4 in component Calcium_voltage_activated_potassium_channel_states (dimensionless). * STATES[22] is C0 in component Calcium_voltage_activated_potassium_channel_states (dimensionless). * STATES[23] is C1 in component Calcium_voltage_activated_potassium_channel_states (dimensionless). * STATES[24] is C2 in component Calcium_voltage_activated_potassium_channel_states (dimensionless). * STATES[25] is C3 in component Calcium_voltage_activated_potassium_channel_states (dimensionless). * STATES[26] is C4 in component Calcium_voltage_activated_potassium_channel_states (dimensionless). * STATES[27] is O0 in component Calcium_voltage_activated_potassium_channel_states (dimensionless). * STATES[28] is O1 in component Calcium_voltage_activated_potassium_channel_states (dimensionless). * STATES[29] is O2 in component Calcium_voltage_activated_potassium_channel_states (dimensionless). * STATES[30] is O3 in component Calcium_voltage_activated_potassium_channel_states (dimensionless). * ALGEBRAIC[37] is alpha in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * ALGEBRAIC[38] is beta in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * CONSTANTS[49] is k_on in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * CONSTANTS[50] is k_off_C in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * CONSTANTS[51] is k_off_O in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * ALGEBRAIC[39] is k_C0O0 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * ALGEBRAIC[40] is k_C1O1 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * ALGEBRAIC[41] is k_C2O2 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * ALGEBRAIC[42] is k_C3O3 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * ALGEBRAIC[43] is k_C4O4 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * ALGEBRAIC[44] is k_O0C0 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * ALGEBRAIC[45] is k_O1C1 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * ALGEBRAIC[46] is k_O2C2 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * ALGEBRAIC[47] is k_O3C3 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * ALGEBRAIC[48] is k_O4C4 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * ALGEBRAIC[49] is k_C0C1 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * ALGEBRAIC[50] is k_C1C2 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * ALGEBRAIC[51] is k_C2C3 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * ALGEBRAIC[52] is k_C3C4 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * CONSTANTS[57] is k_C4C3 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * CONSTANTS[58] is k_C3C2 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * CONSTANTS[59] is k_C2C1 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * CONSTANTS[60] is k_C1C0 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * ALGEBRAIC[53] is k_O0O1 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * ALGEBRAIC[54] is k_O1O2 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * ALGEBRAIC[55] is k_O2O3 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * ALGEBRAIC[56] is k_O3O4 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * CONSTANTS[61] is k_O4O3 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * CONSTANTS[62] is k_O3O2 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * CONSTANTS[63] is k_O2O1 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * CONSTANTS[64] is k_O1O0 in component Calcium_voltage_activated_potassium_channel_states (per_millisecond). * ALGEBRAIC[57] is norm in component Calcium_voltage_activated_potassium_channel_states (dimensionless). * ALGEBRAIC[58] is E_Na in component sodium_current (millivolt). * CONSTANTS[24] is g_Na in component sodium_current (nanoS). * CONSTANTS[25] is Nao in component ionic_concentrations (millimolar). * STATES[31] is Nai in component ionic_concentrations (millimolar). * STATES[32] is O_Na in component Na_channel_states (dimensionless). * STATES[33] is C1 in component Na_channel_states (dimensionless). * STATES[34] is C2 in component Na_channel_states (dimensionless). * STATES[35] is C3 in component Na_channel_states (dimensionless). * STATES[36] is I1 in component Na_channel_states (dimensionless). * STATES[37] is I2 in component Na_channel_states (dimensionless). * ALGEBRAIC[59] is k_I2I1 in component Na_channel_states (per_millisecond). * ALGEBRAIC[60] is k_I1O in component Na_channel_states (per_millisecond). * ALGEBRAIC[61] is k_OC1 in component Na_channel_states (per_millisecond). * ALGEBRAIC[62] is k_C1C2 in component Na_channel_states (per_millisecond). * ALGEBRAIC[63] is k_C2C3 in component Na_channel_states (per_millisecond). * ALGEBRAIC[64] is k_C3C2 in component Na_channel_states (per_millisecond). * ALGEBRAIC[65] is k_C2C1 in component Na_channel_states (per_millisecond). * ALGEBRAIC[66] is k_C1O in component Na_channel_states (per_millisecond). * ALGEBRAIC[67] is k_OI1 in component Na_channel_states (per_millisecond). * ALGEBRAIC[68] is k_I1I2 in component Na_channel_states (per_millisecond). * ALGEBRAIC[69] is k_I1C1 in component Na_channel_states (per_millisecond). * ALGEBRAIC[70] is k_C1I1 in component Na_channel_states (per_millisecond). * ALGEBRAIC[71] is norm in component Na_channel_states (dimensionless). * CONSTANTS[52] is T_correction_Na in component Na_channel_states (dimensionless). * CONSTANTS[26] is Q10Na in component Na_channel_states (dimensionless). * CONSTANTS[27] is P_NCX in component Na_Ca_exchanger (picoA). * CONSTANTS[28] is K_mCa in component Na_Ca_exchanger (millimolar). * CONSTANTS[29] is K_mNai in component Na_Ca_exchanger (millimolar). * CONSTANTS[30] is k_sat in component Na_Ca_exchanger (dimensionless). * CONSTANTS[31] is gamma in component Na_Ca_exchanger (dimensionless). * CONSTANTS[32] is P_NaK in component sodium_potassium_pump (picoA). * CONSTANTS[33] is K_mK in component sodium_potassium_pump (millimolar). * CONSTANTS[34] is K_mNa in component sodium_potassium_pump (millimolar). * CONSTANTS[35] is g_NsNa in component non_specific_Na_current (nanoS). * ALGEBRAIC[74] is E_Na in component non_specific_Na_current (millivolt). * CONSTANTS[36] is g_NsK in component non_specific_K_current (nanoS). * ALGEBRAIC[76] is E_K in component non_specific_K_current (millivolt). * CONSTANTS[37] is CRT_total in component ionic_concentrations (millimolar). * CONSTANTS[38] is CaM_total in component ionic_concentrations (millimolar). * CONSTANTS[39] is K_D_CRT in component ionic_concentrations (millimolar). * CONSTANTS[40] is K_D_CaM in component ionic_concentrations (millimolar4). * CONSTANTS[41] is n_CRT in component ionic_concentrations (dimensionless). * CONSTANTS[42] is n_CaM in component ionic_concentrations (dimensionless). * CONSTANTS[43] is V_myo in component ionic_concentrations (litre). * RATES[0] is d/dt V in component membrane (millivolt). * RATES[6] is d/dt C3 in component L_type_Ca_channel_states (dimensionless). * RATES[5] is d/dt C2 in component L_type_Ca_channel_states (dimensionless). * RATES[4] is d/dt C1 in component L_type_Ca_channel_states (dimensionless). * RATES[3] is d/dt C0 in component L_type_Ca_channel_states (dimensionless). * RATES[10] is d/dt C3Ca in component L_type_Ca_channel_states (dimensionless). * RATES[9] is d/dt C2Ca in component L_type_Ca_channel_states (dimensionless). * RATES[8] is d/dt C1Ca in component L_type_Ca_channel_states (dimensionless). * RATES[7] is d/dt C0Ca in component L_type_Ca_channel_states (dimensionless). * RATES[2] is d/dt O_CaL in component L_type_Ca_channel_states (dimensionless). * RATES[11] is d/dt ICa in component L_type_Ca_channel_states (dimensionless). * RATES[12] is d/dt IVs in component L_type_Ca_channel_states (dimensionless). * RATES[13] is d/dt IVf in component L_type_Ca_channel_states (dimensionless). * RATES[15] is d/dt IVsCa in component L_type_Ca_channel_states (dimensionless). * RATES[14] is d/dt IVfCa in component L_type_Ca_channel_states (dimensionless). * RATES[16] is d/dt d_CaT in component T_type_Ca_channel_d_gate (dimensionless). * RATES[17] is d/dt f_CaT in component T_type_Ca_channel_f_gate (dimensionless). * RATES[18] is d/dt x_Kv in component voltage_dep_K_channel_x_gate (dimensionless). * RATES[19] is d/dt y_Kv in component voltage_dep_K_channel_y_gate (dimensionless). * RATES[26] is d/dt C4 in component Calcium_voltage_activated_potassium_channel_states (dimensionless). * RATES[25] is d/dt C3 in component Calcium_voltage_activated_potassium_channel_states (dimensionless). * RATES[24] is d/dt C2 in component Calcium_voltage_activated_potassium_channel_states (dimensionless). * RATES[23] is d/dt C1 in component Calcium_voltage_activated_potassium_channel_states (dimensionless). * RATES[22] is d/dt C0 in component Calcium_voltage_activated_potassium_channel_states (dimensionless). * RATES[21] is d/dt O4 in component Calcium_voltage_activated_potassium_channel_states (dimensionless). * RATES[30] is d/dt O3 in component Calcium_voltage_activated_potassium_channel_states (dimensionless). * RATES[29] is d/dt O2 in component Calcium_voltage_activated_potassium_channel_states (dimensionless). * RATES[28] is d/dt O1 in component Calcium_voltage_activated_potassium_channel_states (dimensionless). * RATES[27] is d/dt O0 in component Calcium_voltage_activated_potassium_channel_states (dimensionless). * RATES[35] is d/dt C3 in component Na_channel_states (dimensionless). * RATES[34] is d/dt C2 in component Na_channel_states (dimensionless). * RATES[33] is d/dt C1 in component Na_channel_states (dimensionless). * RATES[32] is d/dt O_Na in component Na_channel_states (dimensionless). * RATES[37] is d/dt I2 in component Na_channel_states (dimensionless). * RATES[36] is d/dt I1 in component Na_channel_states (dimensionless). * RATES[31] is d/dt Nai in component ionic_concentrations (millimolar). * RATES[20] is d/dt Ki in component ionic_concentrations (millimolar). * RATES[1] is d/dt Cai in component ionic_concentrations (millimolar). * There are a total of 9 condition variables. */ void initConsts(double* CONSTANTS, double* RATES, double *STATES) { STATES[0] = -73.5049651455872; CONSTANTS[0] = 8.314; CONSTANTS[1] = 310; CONSTANTS[2] = 96.48534; CONSTANTS[3] = 50; CONSTANTS[4] = 10000; CONSTANTS[5] = 2.6; CONSTANTS[6] = 300; CONSTANTS[7] = 9700; CONSTANTS[8] = 600; CONSTANTS[9] = 12000; CONSTANTS[10] = 300; CONSTANTS[11] = -57; CONSTANTS[12] = 33.5; CONSTANTS[13] = 1.44; CONSTANTS[14] = 2; STATES[1] = 5.38843941249284e-5; STATES[2] = 3.88576045134351e-6; STATES[3] = 0.815464741971086; STATES[4] = 0.152399266235657; STATES[5] = 0.0106805060777161; STATES[6] = 0.000332673548872087; STATES[7] = 0.0175888495282545; STATES[8] = 0.00328711668724504; STATES[9] = 0.000230369020877669; STATES[10] = 7.1754726923539e-6; STATES[11] = 8.38123983500905e-8; STATES[12] = 1.1193313274705e-6; STATES[13] = 4.0998751301597e-6; STATES[14] = 8.84306615061238e-8; STATES[15] = 2.41429816075123e-8; CONSTANTS[15] = 2.1; CONSTANTS[16] = 0.0425; STATES[16] = 0.0791635737410974; STATES[17] = 0.377831534375835; CONSTANTS[17] = 2.1; CONSTANTS[18] = 2.1; CONSTANTS[19] = 1.0217; STATES[18] = 0.14714161078933; STATES[19] = 0.99994773314105; CONSTANTS[20] = 5.4; STATES[20] = 153.604280337996; CONSTANTS[21] = 3.1; CONSTANTS[22] = 3.1; CONSTANTS[23] = 80; STATES[21] = 1.82113764497095e-6; STATES[22] = 0.48379087935899; STATES[23] = 0.385183559520031; STATES[24] = 0.115002824567753; STATES[25] = 0.0152602714149774; STATES[26] = 0.000759264410974374; STATES[27] = 6.94960798375172e-7; STATES[28] = 5.55636826398253e-8; STATES[29] = 2.85143702125325e-8; STATES[30] = 1.59832806123435e-6; CONSTANTS[24] = 25.1; CONSTANTS[25] = 140; STATES[31] = 10.5731241425458; STATES[32] = 1.96760342050475e-6; STATES[33] = 0.0119443135223679; STATES[34] = 0.0109545368437155; STATES[35] = 0.973782548650071; STATES[36] = 0.000126882921013389; STATES[37] = 0.00318975045717667; CONSTANTS[26] = 2.45; CONSTANTS[27] = 1992.335; CONSTANTS[28] = 1.38; CONSTANTS[29] = 87.5; CONSTANTS[30] = 0.1; CONSTANTS[31] = 0.35; CONSTANTS[32] = 9.26; CONSTANTS[33] = 1; CONSTANTS[34] = 40; CONSTANTS[35] = 0.022488; CONSTANTS[36] = 0.017512; CONSTANTS[37] = 0.034; CONSTANTS[38] = 0.012; CONSTANTS[39] = 0.0009; CONSTANTS[40] = 0.0001; CONSTANTS[41] = 1; CONSTANTS[42] = 4; CONSTANTS[43] = 3.50000e-12; CONSTANTS[44] = pow(CONSTANTS[15], (CONSTANTS[1] - 310.000)/10.0000); CONSTANTS[45] = pow(CONSTANTS[17], (CONSTANTS[1] - 297.000)/10.0000); CONSTANTS[46] = pow(CONSTANTS[18], (CONSTANTS[1] - 297.000)/10.0000); CONSTANTS[47] = pow(CONSTANTS[21], (CONSTANTS[1] - 297.000)/10.0000); CONSTANTS[48] = pow(CONSTANTS[22], (CONSTANTS[1] - 297.000)/10.0000); CONSTANTS[49] = 40633.0; CONSTANTS[50] = 11.0000; CONSTANTS[51] = 1.10000; CONSTANTS[52] = 1.00000*pow(CONSTANTS[26], (CONSTANTS[1] - 297.000)/10.0000); CONSTANTS[53] = CONSTANTS[44]*0.0100000; CONSTANTS[54] = 1.90580/CONSTANTS[45]; CONSTANTS[55] = 4.78030/CONSTANTS[47]; CONSTANTS[56] = 763.756/CONSTANTS[48]; CONSTANTS[57] = 4.00000*CONSTANTS[50]; CONSTANTS[58] = 3.00000*CONSTANTS[50]; CONSTANTS[59] = 2.00000*CONSTANTS[50]; CONSTANTS[60] = 1.00000*CONSTANTS[50]; CONSTANTS[61] = 4.00000*CONSTANTS[51]; CONSTANTS[62] = 3.00000*CONSTANTS[51]; CONSTANTS[63] = 2.00000*CONSTANTS[51]; CONSTANTS[64] = 1.00000*CONSTANTS[51]; RATES[0] = 0.1001; RATES[6] = 0.1001; RATES[5] = 0.1001; RATES[4] = 0.1001; RATES[3] = 0.1001; RATES[10] = 0.1001; RATES[9] = 0.1001; RATES[8] = 0.1001; RATES[7] = 0.1001; RATES[2] = 0.1001; RATES[11] = 0.1001; RATES[12] = 0.1001; RATES[13] = 0.1001; RATES[15] = 0.1001; RATES[14] = 0.1001; RATES[16] = 0.1001; RATES[17] = 0.1001; RATES[18] = 0.1001; RATES[19] = 0.1001; RATES[26] = 0.1001; RATES[25] = 0.1001; RATES[24] = 0.1001; RATES[23] = 0.1001; RATES[22] = 0.1001; RATES[21] = 0.1001; RATES[30] = 0.1001; RATES[29] = 0.1001; RATES[28] = 0.1001; RATES[27] = 0.1001; RATES[35] = 0.1001; RATES[34] = 0.1001; RATES[33] = 0.1001; RATES[32] = 0.1001; RATES[37] = 0.1001; RATES[36] = 0.1001; RATES[31] = 0.1001; RATES[20] = 0.1001; RATES[1] = 0.1001; } void computeResiduals(double VOI, double* CONSTANTS, double* RATES, double* OLDRATES, double* STATES, double* OLDSTATES, double* ALGEBRAIC, double* CONDVARS) { resid[0] = RATES[0] - (- 1.00000/CONSTANTS[3])*(ALGEBRAIC[79]+ALGEBRAIC[4]+ALGEBRAIC[28]+ALGEBRAIC[78]+ALGEBRAIC[36]+ALGEBRAIC[72]+ALGEBRAIC[73]+ALGEBRAIC[77]+ALGEBRAIC[75]+ALGEBRAIC[2]); resid[1] = RATES[6] - (( ALGEBRAIC[9]*STATES[5])/ALGEBRAIC[26] - ( (ALGEBRAIC[10]+ALGEBRAIC[13]+ALGEBRAIC[16]+ALGEBRAIC[15]+ALGEBRAIC[25])*STATES[6])/ALGEBRAIC[26])+( ALGEBRAIC[14]*STATES[2])/ALGEBRAIC[26]+( ALGEBRAIC[21]*STATES[13])/ALGEBRAIC[26]+( ALGEBRAIC[22]*STATES[12])/ALGEBRAIC[26]+( CONSTANTS[53]*STATES[10])/ALGEBRAIC[26]; resid[2] = RATES[5] - (( ALGEBRAIC[8]*STATES[4])/ALGEBRAIC[26] - ( (ALGEBRAIC[9]+ALGEBRAIC[12]+ALGEBRAIC[25])*STATES[5])/ALGEBRAIC[26])+( ALGEBRAIC[13]*STATES[6])/ALGEBRAIC[26]+( CONSTANTS[53]*STATES[9])/ALGEBRAIC[26]; resid[3] = RATES[4] - (( ALGEBRAIC[7]*STATES[3])/ALGEBRAIC[26] - ( (ALGEBRAIC[8]+ALGEBRAIC[11]+ALGEBRAIC[25])*STATES[4])/ALGEBRAIC[26])+( ALGEBRAIC[12]*STATES[5])/ALGEBRAIC[26]+( CONSTANTS[53]*STATES[8])/ALGEBRAIC[26]; resid[4] = RATES[3] - ( - (ALGEBRAIC[7]+ALGEBRAIC[25])*STATES[3])/ALGEBRAIC[26]+( ALGEBRAIC[11]*STATES[4])/ALGEBRAIC[26]+( CONSTANTS[53]*STATES[7])/ALGEBRAIC[26]; resid[5] = RATES[10] - ((( ALGEBRAIC[25]*STATES[6])/ALGEBRAIC[26]+( ALGEBRAIC[9]*STATES[9])/ALGEBRAIC[26]) - ( (ALGEBRAIC[10]+ALGEBRAIC[13]+ALGEBRAIC[15]+ALGEBRAIC[16]+CONSTANTS[53])*STATES[10])/ALGEBRAIC[26])+( ALGEBRAIC[14]*STATES[11])/ALGEBRAIC[26]+( ALGEBRAIC[21]*STATES[14])/ALGEBRAIC[26]+( ALGEBRAIC[22]*STATES[15])/ALGEBRAIC[26]; resid[6] = RATES[9] - ((( ALGEBRAIC[25]*STATES[5])/ALGEBRAIC[26]+( ALGEBRAIC[8]*STATES[8])/ALGEBRAIC[26]) - ( (ALGEBRAIC[9]+ALGEBRAIC[12]+CONSTANTS[53])*STATES[9])/ALGEBRAIC[26])+( ALGEBRAIC[13]*STATES[10])/ALGEBRAIC[26]; resid[7] = RATES[8] - ((( ALGEBRAIC[25]*STATES[4])/ALGEBRAIC[26]+( ALGEBRAIC[7]*STATES[7])/ALGEBRAIC[26]) - ( (ALGEBRAIC[8]+ALGEBRAIC[11]+CONSTANTS[53])*STATES[8])/ALGEBRAIC[26])+( ALGEBRAIC[12]*STATES[9])/ALGEBRAIC[26]; resid[8] = RATES[7] - (( ALGEBRAIC[25]*STATES[3])/ALGEBRAIC[26] - ( (ALGEBRAIC[7]+CONSTANTS[53])*STATES[7])/ALGEBRAIC[26])+( ALGEBRAIC[11]*STATES[8])/ALGEBRAIC[26]; resid[9] = RATES[2] - (( ALGEBRAIC[10]*STATES[6])/ALGEBRAIC[26] - ( (ALGEBRAIC[14]+ALGEBRAIC[19]+ALGEBRAIC[20]+ALGEBRAIC[25])*STATES[2])/ALGEBRAIC[26])+( ALGEBRAIC[17]*STATES[13])/ALGEBRAIC[26]+( ALGEBRAIC[18]*STATES[12])/ALGEBRAIC[26]+( CONSTANTS[53]*STATES[11])/ALGEBRAIC[26]; resid[10] = RATES[11] - ((( ALGEBRAIC[25]*STATES[2])/ALGEBRAIC[26]+( ALGEBRAIC[10]*STATES[10])/ALGEBRAIC[26]) - ( (ALGEBRAIC[14]+ALGEBRAIC[19]+ALGEBRAIC[20]+CONSTANTS[53])*STATES[11])/ALGEBRAIC[26])+( ALGEBRAIC[17]*STATES[14])/ALGEBRAIC[26]+( ALGEBRAIC[18]*STATES[15])/ALGEBRAIC[26]; resid[11] = RATES[12] - ((( ALGEBRAIC[16]*STATES[6])/ALGEBRAIC[26]+( ALGEBRAIC[20]*STATES[2])/ALGEBRAIC[26]+( ALGEBRAIC[24]*STATES[13])/ALGEBRAIC[26]) - ( (ALGEBRAIC[22]+ALGEBRAIC[18]+ALGEBRAIC[23]+ALGEBRAIC[25])*STATES[12])/ALGEBRAIC[26])+( CONSTANTS[53]*STATES[15])/ALGEBRAIC[26]; resid[12] = RATES[13] - ((( ALGEBRAIC[15]*STATES[6])/ALGEBRAIC[26]+( ALGEBRAIC[19]*STATES[2])/ALGEBRAIC[26]) - ( (ALGEBRAIC[21]+ALGEBRAIC[17]+ALGEBRAIC[24]+ALGEBRAIC[25])*STATES[13])/ALGEBRAIC[26])+( ALGEBRAIC[23]*STATES[12])/ALGEBRAIC[26]+( CONSTANTS[53]*STATES[14])/ALGEBRAIC[26]; resid[13] = RATES[15] - (( ALGEBRAIC[25]*STATES[12])/ALGEBRAIC[26]+( ALGEBRAIC[16]*STATES[10])/ALGEBRAIC[26]+( ALGEBRAIC[20]*STATES[11])/ALGEBRAIC[26]+( ALGEBRAIC[24]*STATES[14])/ALGEBRAIC[26]) - ( (ALGEBRAIC[22]+ALGEBRAIC[18]+ALGEBRAIC[23]+CONSTANTS[53])*STATES[15])/ALGEBRAIC[26]; resid[14] = RATES[14] - ((( ALGEBRAIC[25]*STATES[13])/ALGEBRAIC[26]+( ALGEBRAIC[15]*STATES[10])/ALGEBRAIC[26]+( ALGEBRAIC[19]*STATES[11])/ALGEBRAIC[26]) - ( (ALGEBRAIC[21]+ALGEBRAIC[17]+ALGEBRAIC[24]+CONSTANTS[53])*STATES[14])/ALGEBRAIC[26])+( ALGEBRAIC[23]*STATES[15])/ALGEBRAIC[26]; resid[15] = RATES[16] - (ALGEBRAIC[29] - STATES[16])/CONSTANTS[54]; resid[16] = RATES[17] - (ALGEBRAIC[30] - STATES[17])/ALGEBRAIC[31]; resid[17] = RATES[18] - (ALGEBRAIC[33] - STATES[18])/CONSTANTS[55]; resid[18] = RATES[19] - (ALGEBRAIC[34] - STATES[19])/CONSTANTS[56]; resid[19] = RATES[26] - ( - (CONSTANTS[57]+ALGEBRAIC[43])*STATES[26])/ALGEBRAIC[57]+( ALGEBRAIC[52]*STATES[25])/ALGEBRAIC[57]+( ALGEBRAIC[48]*STATES[21])/ALGEBRAIC[57]; resid[20] = RATES[25] - ( - (CONSTANTS[58]+ALGEBRAIC[42]+ALGEBRAIC[52])*STATES[25])/ALGEBRAIC[57]+( ALGEBRAIC[51]*STATES[24])/ALGEBRAIC[57]+( ALGEBRAIC[47]*STATES[30])/ALGEBRAIC[57]+( CONSTANTS[57]*STATES[26])/ALGEBRAIC[57]; resid[21] = RATES[24] - ( - (CONSTANTS[59]+ALGEBRAIC[41]+ALGEBRAIC[51])*STATES[24])/ALGEBRAIC[57]+( ALGEBRAIC[50]*STATES[23])/ALGEBRAIC[57]+( ALGEBRAIC[46]*STATES[29])/ALGEBRAIC[57]+( CONSTANTS[58]*STATES[25])/ALGEBRAIC[57]; resid[22] = RATES[23] - ( - (CONSTANTS[60]+ALGEBRAIC[40]+ALGEBRAIC[50])*STATES[23])/ALGEBRAIC[57]+( ALGEBRAIC[49]*STATES[22])/ALGEBRAIC[57]+( ALGEBRAIC[45]*STATES[28])/ALGEBRAIC[57]+( CONSTANTS[59]*STATES[24])/ALGEBRAIC[57]; resid[23] = RATES[22] - ( - (ALGEBRAIC[49]+ALGEBRAIC[39])*STATES[22])/ALGEBRAIC[57]+( CONSTANTS[60]*STATES[23])/ALGEBRAIC[57]+( ALGEBRAIC[44]*STATES[27])/ALGEBRAIC[57]; resid[24] = RATES[21] - ( - (CONSTANTS[61]+ALGEBRAIC[48])*STATES[21])/ALGEBRAIC[57]+( ALGEBRAIC[56]*STATES[30])/ALGEBRAIC[57]+( ALGEBRAIC[43]*STATES[26])/ALGEBRAIC[57]; resid[25] = RATES[30] - ( - (CONSTANTS[62]+ALGEBRAIC[47]+ALGEBRAIC[56])*STATES[30])/ALGEBRAIC[57]+( ALGEBRAIC[55]*STATES[29])/ALGEBRAIC[57]+( ALGEBRAIC[42]*STATES[25])/ALGEBRAIC[57]+( CONSTANTS[61]*STATES[21])/ALGEBRAIC[57]; resid[26] = RATES[29] - ( - (CONSTANTS[63]+ALGEBRAIC[46]+ALGEBRAIC[55])*STATES[29])/ALGEBRAIC[57]+( ALGEBRAIC[54]*STATES[28])/ALGEBRAIC[57]+( ALGEBRAIC[41]*STATES[24])/ALGEBRAIC[57]+( CONSTANTS[62]*STATES[30])/ALGEBRAIC[57]; resid[27] = RATES[28] - ( - (CONSTANTS[64]+ALGEBRAIC[45]+ALGEBRAIC[54])*STATES[28])/ALGEBRAIC[57]+( ALGEBRAIC[53]*STATES[27])/ALGEBRAIC[57]+( ALGEBRAIC[40]*STATES[23])/ALGEBRAIC[57]+( CONSTANTS[63]*STATES[29])/ALGEBRAIC[57]; resid[28] = RATES[27] - ( - (ALGEBRAIC[53]+ALGEBRAIC[44])*STATES[27])/ALGEBRAIC[57]+( CONSTANTS[64]*STATES[28])/ALGEBRAIC[57]+( ALGEBRAIC[39]*STATES[22])/ALGEBRAIC[57]; resid[29] = RATES[35] - ( - ALGEBRAIC[64]*STATES[35])/ALGEBRAIC[71]+( ALGEBRAIC[63]*STATES[34])/ALGEBRAIC[71]; resid[30] = RATES[34] - ( - (ALGEBRAIC[65]+ALGEBRAIC[63])*STATES[34])/ALGEBRAIC[71]+( ALGEBRAIC[62]*STATES[33])/ALGEBRAIC[71]+( ALGEBRAIC[64]*STATES[35])/ALGEBRAIC[71]; resid[31] = RATES[33] - ( - (ALGEBRAIC[62]+ALGEBRAIC[66]+ALGEBRAIC[70])*STATES[33])/ALGEBRAIC[71]+( ALGEBRAIC[61]*STATES[32])/ALGEBRAIC[71]+( ALGEBRAIC[65]*STATES[34])/ALGEBRAIC[71]+( ALGEBRAIC[69]*STATES[36])/ALGEBRAIC[71]; resid[32] = RATES[32] - ( - (ALGEBRAIC[61]+ALGEBRAIC[67])*STATES[32])/ALGEBRAIC[71]+( ALGEBRAIC[66]*STATES[33])/ALGEBRAIC[71]+( ALGEBRAIC[60]*STATES[36])/ALGEBRAIC[71]; resid[33] = RATES[37] - ( - ALGEBRAIC[59]*STATES[37])/ALGEBRAIC[71]+( ALGEBRAIC[68]*STATES[36])/ALGEBRAIC[71]; resid[34] = RATES[36] - ( - (ALGEBRAIC[60]+ALGEBRAIC[68]+ALGEBRAIC[69])*STATES[36])/ALGEBRAIC[71]+( ALGEBRAIC[59]*STATES[37])/ALGEBRAIC[71]+( ALGEBRAIC[70]*STATES[33])/ALGEBRAIC[71]+( ALGEBRAIC[67]*STATES[32])/ALGEBRAIC[71]; resid[35] = RATES[31] - ( (- 1.00000/1.00000e+15)*(ALGEBRAIC[79]+ALGEBRAIC[75]+ ALGEBRAIC[72]*3.00000+ ALGEBRAIC[73]*3.00000))/( CONSTANTS[43]*CONSTANTS[2]); resid[36] = RATES[20] - ( - 1.00000e-15*((ALGEBRAIC[78]+ALGEBRAIC[36]+ALGEBRAIC[77]+ALGEBRAIC[2]) - ALGEBRAIC[73]*2.00000))/( CONSTANTS[43]*CONSTANTS[2]); resid[37] = RATES[1] - (( - 1.00000e-15*((ALGEBRAIC[4]+ALGEBRAIC[28]) - ALGEBRAIC[72]*2.00000))/( 2.00000*CONSTANTS[43]*CONSTANTS[2]))/(1.00000+( CONSTANTS[41]*CONSTANTS[37]*CONSTANTS[39]*pow(STATES[1], CONSTANTS[41] - 1.00000))/pow(pow(STATES[1], CONSTANTS[41])+CONSTANTS[39], 2.00000)+( CONSTANTS[42]*CONSTANTS[38]*CONSTANTS[40]*pow(STATES[1], CONSTANTS[42] - 1.00000))/pow(pow(STATES[1], CONSTANTS[42])+CONSTANTS[40], 2.00000)); } void computeVariables(double VOI, double* CONSTANTS, double* RATES, double* STATES, double* ALGEBRAIC) { } void computeEssentialVariables(double VOI, double* CONSTANTS, double* RATES, double* STATES, double* ALGEBRAIC) { ALGEBRAIC[0] = (CONDVAR[0]>=0.00000&&CONDVAR[1]<=0.00000 ? CONSTANTS[4]*0.00000 : CONDVAR[2]>=0.00000&&CONDVAR[3]<=0.00000 ? CONSTANTS[4]*1.00000 : CONDVAR[4]>=0.00000&&CONDVAR[5]<0.00000 ? CONSTANTS[4]*2.00000 : CONDVAR[6]>=0.00000&&CONDVAR[7]<0.00000 ? CONSTANTS[4]*3.00000 : 0.00000); ALGEBRAIC[1] = VOI - ALGEBRAIC[0]; ALGEBRAIC[2] = (CONDVAR[8]<0.00000 ? CONSTANTS[5]*(STATES[0] - (CONSTANTS[11]+( CONSTANTS[12]*ALGEBRAIC[1])/CONSTANTS[10])) : CONSTANTS[5]*(STATES[0] - (CONSTANTS[11]+( CONSTANTS[12]*(1.00000+exp(- CONSTANTS[9]/( 2.00000*CONSTANTS[8])))*1.00000)/(1.00000+exp(((ALGEBRAIC[1] - CONSTANTS[10]) - 0.500000*CONSTANTS[9])/CONSTANTS[8]))))); ALGEBRAIC[3] = (( CONSTANTS[0]*CONSTANTS[1])/( 2.00000*CONSTANTS[2]))*log(CONSTANTS[14]/STATES[1]); ALGEBRAIC[4] = CONSTANTS[13]*STATES[2]*(STATES[0] - ALGEBRAIC[3]); ALGEBRAIC[5] = CONSTANTS[44]*0.731000*exp(STATES[0]/30.0000); ALGEBRAIC[7] = 4.00000*ALGEBRAIC[5]; ALGEBRAIC[8] = 3.00000*ALGEBRAIC[5]; ALGEBRAIC[9] = 2.00000*ALGEBRAIC[5]; ALGEBRAIC[10] = 1.00000*ALGEBRAIC[5]; ALGEBRAIC[6] = CONSTANTS[44]*0.214900*exp(- STATES[0]/40.0000); ALGEBRAIC[11] = 1.00000*ALGEBRAIC[6]; ALGEBRAIC[12] = 2.00000*ALGEBRAIC[6]; ALGEBRAIC[13] = 3.00000*ALGEBRAIC[6]; ALGEBRAIC[14] = 4.00000*ALGEBRAIC[6]; ALGEBRAIC[15] = CONSTANTS[44]*0.474200*exp(STATES[0]/10.0000); ALGEBRAIC[16] = CONSTANTS[44]*0.0595600*exp(- STATES[0]/40.0000); ALGEBRAIC[17] = CONSTANTS[44]*0.0140700*exp(- STATES[0]/300.000); ALGEBRAIC[18] = CONSTANTS[44]*0.0121300*exp(STATES[0]/500.000); ALGEBRAIC[19] = CONSTANTS[44]*0.0219700*exp(STATES[0]/500.000); ALGEBRAIC[20] = CONSTANTS[44]*0.00232000*exp(- STATES[0]/280.000); ALGEBRAIC[21] = ( ALGEBRAIC[14]*ALGEBRAIC[17]*ALGEBRAIC[15])/( ALGEBRAIC[10]*ALGEBRAIC[19]); ALGEBRAIC[22] = ( ALGEBRAIC[14]*ALGEBRAIC[18]*ALGEBRAIC[16])/( ALGEBRAIC[10]*ALGEBRAIC[20]); ALGEBRAIC[23] = ( ALGEBRAIC[18]*ALGEBRAIC[19])/ALGEBRAIC[17]; ALGEBRAIC[24] = ALGEBRAIC[20]; ALGEBRAIC[25] = ( CONSTANTS[44]*4.00000)/(1.00000+1.00000/STATES[1]); ALGEBRAIC[26] = STATES[6]+STATES[5]+STATES[4]+STATES[3]+STATES[10]+STATES[9]+STATES[8]+STATES[7]+STATES[2]+STATES[11]+STATES[12]+STATES[13]+STATES[15]+STATES[14]; ALGEBRAIC[27] = (( CONSTANTS[0]*CONSTANTS[1])/( 2.00000*CONSTANTS[2]))*log(CONSTANTS[14]/STATES[1]); ALGEBRAIC[28] = CONSTANTS[16]*STATES[16]*STATES[17]*(STATES[0] - ALGEBRAIC[27]); ALGEBRAIC[29] = 1.00000/(1.00000+exp(- (STATES[0]+60.5000)/5.30000)); ALGEBRAIC[30] = 1.00000/(1.00000+exp((STATES[0]+75.5000)/4.00000)); ALGEBRAIC[31] = ( 0.381170*(8.60000+ 14.7000*exp(( - (STATES[0]+50.0000)*(STATES[0]+50.0000))/900.000)))/CONSTANTS[46]; ALGEBRAIC[33] = 1.00000/(1.00000+exp(- (STATES[0]+43.0000)/17.3600)); ALGEBRAIC[34] = 1.00000/(1.00000+exp((STATES[0] - 44.9000)/12.0096)); ALGEBRAIC[35] = (( CONSTANTS[0]*CONSTANTS[1])/CONSTANTS[2])*log(CONSTANTS[20]/STATES[20]); ALGEBRAIC[36] = CONSTANTS[23]*STATES[21]*(STATES[0] - ALGEBRAIC[35]); ALGEBRAIC[37] = 1.00000*exp(( 8.47188*STATES[0])/( 1.00000*CONSTANTS[1])); ALGEBRAIC[39] = 0.0216200*ALGEBRAIC[37]; ALGEBRAIC[40] = 0.000869000*ALGEBRAIC[37]; ALGEBRAIC[41] = 2.81000e-05*ALGEBRAIC[37]; ALGEBRAIC[42] = 0.000781000*ALGEBRAIC[37]; ALGEBRAIC[43] = 0.0443240*ALGEBRAIC[37]; ALGEBRAIC[38] = 1.00000*exp(( - 7.77556*STATES[0])/( 1.00000*CONSTANTS[1])); ALGEBRAIC[44] = 318.108*ALGEBRAIC[38]; ALGEBRAIC[45] = 144.174*ALGEBRAIC[38]; ALGEBRAIC[46] = 32.6594*ALGEBRAIC[38]; ALGEBRAIC[47] = 0.0953120*ALGEBRAIC[38]; ALGEBRAIC[48] = 0.000106000*ALGEBRAIC[38]; ALGEBRAIC[49] = 4.00000*CONSTANTS[49]*STATES[1]; ALGEBRAIC[50] = 3.00000*CONSTANTS[49]*STATES[1]; ALGEBRAIC[51] = 2.00000*CONSTANTS[49]*STATES[1]; ALGEBRAIC[52] = 1.00000*CONSTANTS[49]*STATES[1]; ALGEBRAIC[53] = 4.00000*CONSTANTS[49]*STATES[1]; ALGEBRAIC[54] = 3.00000*CONSTANTS[49]*STATES[1]; ALGEBRAIC[55] = 2.00000*CONSTANTS[49]*STATES[1]; ALGEBRAIC[56] = 1.00000*CONSTANTS[49]*STATES[1]; ALGEBRAIC[57] = STATES[22]+STATES[23]+STATES[24]+STATES[25]+STATES[26]+STATES[27]+STATES[28]+STATES[29]+STATES[30]+STATES[21]; ALGEBRAIC[59] = CONSTANTS[52]*0.00392390*exp(2.67930+ 0.00614680*STATES[0]); ALGEBRAIC[60] = CONSTANTS[52]*0.120520*exp(- 9.60280+ 0.0830250*STATES[0]); ALGEBRAIC[61] = CONSTANTS[52]*2.39100*exp(- 13.3350 - 0.252890*STATES[0]); ALGEBRAIC[62] = CONSTANTS[52]*3.15660*exp(0.363520+ 0.0771930*STATES[0]); ALGEBRAIC[63] = CONSTANTS[52]*0.554320*exp(- 0.0990740+ 0.0364410*STATES[0]); ALGEBRAIC[64] = CONSTANTS[52]*0.000525480*exp(- 0.0691020+ 0.00319450*STATES[0]); ALGEBRAIC[65] = CONSTANTS[52]*1.44960*exp(- 0.156600+ 0.0583530*STATES[0]); ALGEBRAIC[66] = CONSTANTS[52]*1.53290*exp(0.00931930+ 0.0410750*STATES[0]); ALGEBRAIC[67] = CONSTANTS[52]*1.61640*exp(0.307630+ 0.00605350*STATES[0]); ALGEBRAIC[68] = CONSTANTS[52]*0.0277350*exp(0.0514900 - 0.0468650*STATES[0]); ALGEBRAIC[69] = CONSTANTS[52]*1.90460*exp(- 2.48400+ 0.0204060*STATES[0]); ALGEBRAIC[70] = CONSTANTS[52]*0.000216880*exp(- 0.0634380+ 0.00466830*STATES[0]); ALGEBRAIC[71] = STATES[32]+STATES[33]+STATES[34]+STATES[35]+STATES[36]+STATES[37]; ALGEBRAIC[72] = ( CONSTANTS[27]*( exp(( CONSTANTS[31]*STATES[0]*CONSTANTS[2])/( CONSTANTS[0]*CONSTANTS[1]))*pow(STATES[31], 3.00000)*CONSTANTS[14] - 2.50000*exp(( (CONSTANTS[31] - 1.00000)*STATES[0]*CONSTANTS[2])/( CONSTANTS[0]*CONSTANTS[1]))*pow(CONSTANTS[25], 3.00000)*STATES[1]))/( (pow(CONSTANTS[29], 3.00000)+pow(CONSTANTS[25], 3.00000))*(CONSTANTS[28]+CONSTANTS[14])*(1.00000+ CONSTANTS[30]*exp(( (CONSTANTS[31] - 1.00000)*STATES[0]*CONSTANTS[2])/( CONSTANTS[0]*CONSTANTS[1])))); ALGEBRAIC[73] = ( CONSTANTS[32]*CONSTANTS[20]*STATES[31])/( (CONSTANTS[20]+CONSTANTS[33])*(CONSTANTS[34]+STATES[31])*(1.00000+ 0.124500*exp(( - 0.100000*STATES[0]*CONSTANTS[2])/( CONSTANTS[0]*CONSTANTS[1]))+ 0.0353000*exp(( - STATES[0]*CONSTANTS[2])/( CONSTANTS[0]*CONSTANTS[1])))); ALGEBRAIC[74] = (( CONSTANTS[0]*CONSTANTS[1])/CONSTANTS[2])*log(CONSTANTS[25]/STATES[31]); ALGEBRAIC[75] = CONSTANTS[35]*(STATES[0] - ALGEBRAIC[74]); ALGEBRAIC[76] = (( CONSTANTS[0]*CONSTANTS[1])/CONSTANTS[2])*log(CONSTANTS[20]/STATES[20]); ALGEBRAIC[77] = CONSTANTS[36]*(STATES[0] - ALGEBRAIC[76]); ALGEBRAIC[32] = (( CONSTANTS[0]*CONSTANTS[1])/CONSTANTS[2])*log(CONSTANTS[20]/STATES[20]); ALGEBRAIC[78] = CONSTANTS[19]*STATES[18]*STATES[19]*(STATES[0] - ALGEBRAIC[32]); ALGEBRAIC[58] = (( CONSTANTS[0]*CONSTANTS[1])/CONSTANTS[2])*log(CONSTANTS[25]/STATES[31]); ALGEBRAIC[79] = CONSTANTS[24]*STATES[32]*(STATES[0] - ALGEBRAIC[58]); } void getStateInformation(double* SI) { SI[0] = 1.0; 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; } void computeRoots(double VOI, double* CONSTANTS, double* RATES, double* OLDRATES, double* STATES, double* OLDSTATES, double* ALGEBRAIC, double* CONDVARS) { CONDVAR[0] = VOI - CONSTANTS[4]*0.00000; CONDVAR[1] = VOI - CONSTANTS[4]*1.00000; CONDVAR[2] = VOI - CONSTANTS[4]*1.00000; CONDVAR[3] = VOI - CONSTANTS[4]*2.00000; CONDVAR[4] = VOI - CONSTANTS[4]*2.00000; CONDVAR[5] = VOI - CONSTANTS[4]*3.00000; CONDVAR[6] = VOI - CONSTANTS[4]*3.00000; CONDVAR[7] = VOI - CONSTANTS[4]*4.00000; CONDVAR[8] = ALGEBRAIC[1] - CONSTANTS[6]; }