/* There are a total of 35 entries in the algebraic variable array. There are a total of 16 entries in each of the rate and state variable arrays. There are a total of 134 entries in the constant variable array. */ /* * VOI is time in component environment (second). * STATES[0] is ADP_m in component ADP_m (millimolar). * ALGEBRAIC[32] is V_ANT in component calcium_dynamics (flux). * ALGEBRAIC[30] is V_ATPase in component oxidative_phosphorylation (flux). * ALGEBRAIC[11] is V_SL in component V_SL (flux). * STATES[1] is NADH in component NADH (millimolar). * ALGEBRAIC[26] is V_O2 in component oxidative_phosphorylation (flux). * ALGEBRAIC[9] is V_IDH in component V_IDH (flux). * ALGEBRAIC[10] is V_KGDH in component V_KGDH (flux). * ALGEBRAIC[13] is V_MDH in component V_MDH (flux). * STATES[2] is ISOC in component ISOC (millimolar). * ALGEBRAIC[8] is V_ACO in component V_ACO (flux). * STATES[3] is alpha_KG in component alpha_KG (millimolar). * ALGEBRAIC[15] is V_AAT in component V_AAT (flux). * STATES[4] is SCoA in component SCoA (millimolar). * STATES[5] is Suc in component Suc (millimolar). * ALGEBRAIC[12] is V_SDH in component V_SDH (flux). * STATES[6] is FUM in component FUM (millimolar). * ALGEBRAIC[16] is V_FH in component V_FH (flux). * STATES[7] is MAL in component MAL (millimolar). * STATES[8] is OAA in component OAA (millimolar). * ALGEBRAIC[7] is V_CS in component V_CS (flux). * STATES[9] is ASP in component ASP (millimolar). * ALGEBRAIC[18] is V_C_ASP in component V_C_ASP (flux). * STATES[10] is Ca_m in component Ca_m (micromolar). * CONSTANTS[0] is f in component Ca_m (dimensionless). * ALGEBRAIC[33] is V_uni in component calcium_dynamics (flux). * ALGEBRAIC[34] is V_NaCa in component calcium_dynamics (flux). * ALGEBRAIC[1] is Ca_i in component Ca_i (micromolar). * CONSTANTS[1] is stim_start in component Ca_i (second). * CONSTANTS[2] is stim_end in component Ca_i (second). * ALGEBRAIC[0] is stim_period in component Ca_i (second). * CONSTANTS[3] is stim_duration in component Ca_i (second). * CONSTANTS[4] is pulse_value in component Ca_i (micromolar). * CONSTANTS[5] is Na_i in component Na_i (millimolar). * CONSTANTS[6] is ATP_i in component ATP_i (millimolar). * ALGEBRAIC[2] is ATP_m in component ATP_m (millimolar). * CONSTANTS[7] is Cm in component ATP_m (millimolar). * ALGEBRAIC[3] is ADP_i in component ADP_i (millimolar). * CONSTANTS[8] is pulse_value in component ADP_i (millimolar). * CONSTANTS[9] is GLU in component GLU (millimolar). * CONSTANTS[10] is Mg in component Mg (millimolar). * CONSTANTS[11] is H in component H (millimolar). * CONSTANTS[12] is Pi in component Pi (millimolar). * CONSTANTS[13] is CoA in component CoA (millimolar). * CONSTANTS[14] is AcCoA in component AcCoA (millimolar). * CONSTANTS[15] is FAD in component FAD (millimolar). * CONSTANTS[16] is FADH2 in component FADH2 (millimolar). * ALGEBRAIC[4] is NAD in component NAD (millimolar). * CONSTANTS[17] is C_PN in component NAD (millimolar). * CONSTANTS[18] is NADPH in component NADPH (millimolar). * STATES[11] is O2_m in component O2_m (millimolar). * CONSTANTS[19] is shunt in component O2_m (dimensionless). * ALGEBRAIC[20] is VTr_ROS in component VTr_ROS (flux). * STATES[12] is O2_i in component O2_i (millimolar). * ALGEBRAIC[14] is V_SOD in component V_SOD (flux). * STATES[13] is H2O2 in component H2O2 (millimolar). * ALGEBRAIC[19] is V_CAT in component V_CAT (flux). * ALGEBRAIC[21] is V_GPX in component V_GPX (flux). * STATES[14] is GSH in component GSH (millimolar). * ALGEBRAIC[23] is V_GR in component V_GR (flux). * ALGEBRAIC[5] is GSSG in component GSSG (millimolar). * CONSTANTS[20] is GT in component GSSG (millimolar). * ALGEBRAIC[6] is CIT in component CIT (millimolar). * CONSTANTS[21] is C_Kint in component CIT (millimolar). * STATES[15] is delta_psi_m in component mitochondrial_membrane (volt). * CONSTANTS[22] is R in component mitochondrial_membrane (volt_coulomb_per_mole_kelvin). * CONSTANTS[23] is T in component mitochondrial_membrane (kelvin). * CONSTANTS[24] is F in component mitochondrial_membrane (coulomb_per_mole). * CONSTANTS[25] is C_mito in component mitochondrial_membrane (millimolar_per_volt). * ALGEBRAIC[25] is V_He in component oxidative_phosphorylation (flux). * ALGEBRAIC[27] is V_He_F in component oxidative_phosphorylation (flux). * ALGEBRAIC[31] is V_Hu in component oxidative_phosphorylation (flux). * ALGEBRAIC[28] is V_Hleak in component oxidative_phosphorylation (flux). * CONSTANTS[26] is Km_AcCoA in component V_CS (millimolar). * CONSTANTS[27] is Km_OAA in component V_CS (millimolar). * CONSTANTS[28] is Kcat_CS in component V_CS (first_order_rate_constant). * CONSTANTS[29] is ET_CS in component V_CS (millimolar). * CONSTANTS[30] is Kf_ACO in component V_ACO (first_order_rate_constant). * CONSTANTS[31] is KE_ACO in component V_ACO (dimensionless). * CONSTANTS[32] is Kh_1 in component V_IDH (millimolar). * CONSTANTS[33] is Kh_2 in component V_IDH (millimolar). * CONSTANTS[34] is Km_ISOC in component V_IDH (millimolar). * CONSTANTS[35] is Ka_ADP in component V_IDH (millimolar). * CONSTANTS[36] is Ka_Ca in component V_IDH (micromolar). * CONSTANTS[37] is Km_NAD in component V_IDH (millimolar). * CONSTANTS[38] is Ki_NADH in component V_IDH (millimolar). * CONSTANTS[39] is Kcat_IDH in component V_IDH (first_order_rate_constant). * CONSTANTS[40] is ET_IDH in component V_IDH (millimolar). * CONSTANTS[41] is ni in component V_IDH (dimensionless). * CONSTANTS[42] is Km_alpha_KG in component V_KGDH (millimolar). * CONSTANTS[43] is Kcat_KGDH in component V_KGDH (first_order_rate_constant). * CONSTANTS[44] is ET_KGDH in component V_KGDH (millimolar). * CONSTANTS[45] is Kd_Mg in component V_KGDH (millimolar). * CONSTANTS[46] is Kd_Ca in component V_KGDH (micromolar). * CONSTANTS[47] is n_alpha_KG in component V_KGDH (dimensionless). * CONSTANTS[48] is Km_NAD in component V_KGDH (millimolar). * CONSTANTS[49] is kf_SL in component V_SL (second_order_rate_constant). * CONSTANTS[50] is Ke_SL in component V_SL (millimolar). * CONSTANTS[51] is Kisdh_OAA in component V_SDH (millimolar). * CONSTANTS[52] is Kcat_SDH in component V_SDH (first_order_rate_constant). * CONSTANTS[53] is ET_SDH in component V_SDH (millimolar). * CONSTANTS[54] is Km_Suc in component V_SDH (millimolar). * CONSTANTS[55] is Ki_FUM in component V_SDH (millimolar). * CONSTANTS[56] is Km_MAL in component V_MDH (millimolar). * CONSTANTS[57] is Kcat_MDH in component V_MDH (first_order_rate_constant). * CONSTANTS[58] is ET_MDH in component V_MDH (millimolar). * CONSTANTS[59] is Ki_OAA in component V_MDH (millimolar). * CONSTANTS[132] is fh_a in component V_MDH (dimensionless). * CONSTANTS[133] is fh_i in component V_MDH (dimensionless). * CONSTANTS[60] is Km_NAD in component V_MDH (millimolar). * CONSTANTS[61] is kh1 in component V_MDH (millimolar). * CONSTANTS[62] is kh2 in component V_MDH (millimolar). * CONSTANTS[63] is kh3 in component V_MDH (millimolar). * CONSTANTS[64] is kh4 in component V_MDH (millimolar). * CONSTANTS[65] is k_offset in component V_MDH (dimensionless). * CONSTANTS[66] is Ke_FH in component V_FH (dimensionless). * CONSTANTS[67] is kf_FH in component V_FH (first_order_rate_constant). * CONSTANTS[68] is Ke_AAT in component V_AAT (dimensionless). * CONSTANTS[69] is kf_AAT in component V_AAT (second_order_rate_constant). * CONSTANTS[70] is k_C_ASP in component V_C_ASP (first_order_rate_constant). * CONSTANTS[71] is k1_SOD in component V_SOD (second_order_rate_constant). * CONSTANTS[72] is k3_SOD in component V_SOD (second_order_rate_constant). * CONSTANTS[73] is k5_SOD in component V_SOD (first_order_rate_constant). * CONSTANTS[74] is ET_SOD in component V_SOD (millimolar). * CONSTANTS[75] is Ki_H2O2 in component V_SOD (millimolar). * CONSTANTS[76] is k1_CAT in component V_CAT (second_order_rate_constant). * CONSTANTS[77] is ET_CAT in component V_CAT (millimolar). * CONSTANTS[78] is fr in component V_CAT (per_millimolar). * CONSTANTS[79] is phi1_GPX in component V_GPX (millimolar_second). * CONSTANTS[80] is phi2_GPX in component V_GPX (millimolar_second). * CONSTANTS[81] is ET_GPX in component V_GPX (millimolar). * CONSTANTS[82] is k1_GR in component V_GR (first_order_rate_constant). * CONSTANTS[83] is KM_GSSG in component V_GR (millimolar). * CONSTANTS[84] is KM_NADPH in component V_GR (millimolar). * CONSTANTS[85] is ET_GR in component V_GR (millimolar). * ALGEBRAIC[17] is V_IMAC in component V_IMAC (flux). * CONSTANTS[86] is Gmax in component V_IMAC (millimolar_per_second_volt). * CONSTANTS[87] is GL in component V_IMAC (millimolar_per_second_volt). * CONSTANTS[88] is a in component V_IMAC (dimensionless). * CONSTANTS[89] is b in component V_IMAC (dimensionless). * CONSTANTS[90] is kappa in component V_IMAC (per_volt). * CONSTANTS[91] is delta_psi_bm in component V_IMAC (volt). * CONSTANTS[92] is Kcc in component V_IMAC (millimolar). * CONSTANTS[93] is j in component VTr_ROS (dimensionless). * CONSTANTS[94] is rho_res in component oxidative_phosphorylation (millimolar). * CONSTANTS[95] is rho_res_F in component oxidative_phosphorylation (millimolar). * CONSTANTS[96] is ra in component oxidative_phosphorylation (first_order_rate_constant). * CONSTANTS[97] is rc1 in component oxidative_phosphorylation (first_order_rate_constant). * ALGEBRAIC[22] is Ares in component oxidative_phosphorylation (volt). * CONSTANTS[131] is Ares_F in component oxidative_phosphorylation (volt). * CONSTANTS[98] is r1 in component oxidative_phosphorylation (dimensionless). * CONSTANTS[99] is r2 in component oxidative_phosphorylation (dimensionless). * CONSTANTS[100] is r3 in component oxidative_phosphorylation (dimensionless). * CONSTANTS[101] is rb in component oxidative_phosphorylation (first_order_rate_constant). * CONSTANTS[102] is rc2 in component oxidative_phosphorylation (first_order_rate_constant). * CONSTANTS[103] is Kres in component oxidative_phosphorylation (dimensionless). * CONSTANTS[104] is Kres_F in component oxidative_phosphorylation (dimensionless). * CONSTANTS[105] is gH in component oxidative_phosphorylation (millimolar_per_second_volt). * CONSTANTS[106] is delta_psi_B in component oxidative_phosphorylation (volt). * CONSTANTS[107] is g in component oxidative_phosphorylation (dimensionless). * ALGEBRAIC[24] is delta_mu_H in component oxidative_phosphorylation (volt). * CONSTANTS[108] is delta_pH in component oxidative_phosphorylation (dimensionless). * CONSTANTS[109] is rho_F1 in component oxidative_phosphorylation (millimolar). * CONSTANTS[110] is pa in component oxidative_phosphorylation (first_order_rate_constant). * CONSTANTS[111] is pc1 in component oxidative_phosphorylation (first_order_rate_constant). * ALGEBRAIC[29] is AF1 in component oxidative_phosphorylation (volt). * CONSTANTS[112] is p1 in component oxidative_phosphorylation (dimensionless). * CONSTANTS[113] is p2 in component oxidative_phosphorylation (dimensionless). * CONSTANTS[114] is p3 in component oxidative_phosphorylation (dimensionless). * CONSTANTS[115] is pb in component oxidative_phosphorylation (first_order_rate_constant). * CONSTANTS[116] is pc2 in component oxidative_phosphorylation (first_order_rate_constant). * CONSTANTS[117] is KF1 in component oxidative_phosphorylation (millimolar). * CONSTANTS[118] is h in component calcium_dynamics (dimensionless). * CONSTANTS[119] is delta_psi_0 in component calcium_dynamics (volt). * CONSTANTS[120] is Vmax_ANT in component calcium_dynamics (flux). * CONSTANTS[121] is L in component calcium_dynamics (dimensionless). * CONSTANTS[122] is na in component calcium_dynamics (dimensionless). * CONSTANTS[123] is Vmax_uni in component calcium_dynamics (flux). * CONSTANTS[124] is K_act in component calcium_dynamics (micromolar). * CONSTANTS[125] is K_trans in component calcium_dynamics (micromolar). * CONSTANTS[126] is n in component calcium_dynamics (dimensionless). * CONSTANTS[127] is Vmax_NaCa in component calcium_dynamics (flux). * CONSTANTS[128] is KNa in component calcium_dynamics (millimolar). * CONSTANTS[129] is KCa in component calcium_dynamics (micromolar). * CONSTANTS[130] is b in component calcium_dynamics (dimensionless). * RATES[0] is d/dt ADP_m in component ADP_m (millimolar). * RATES[1] is d/dt NADH in component NADH (millimolar). * RATES[2] is d/dt ISOC in component ISOC (millimolar). * RATES[3] is d/dt alpha_KG in component alpha_KG (millimolar). * RATES[4] is d/dt SCoA in component SCoA (millimolar). * RATES[5] is d/dt Suc in component Suc (millimolar). * RATES[6] is d/dt FUM in component FUM (millimolar). * RATES[7] is d/dt MAL in component MAL (millimolar). * RATES[8] is d/dt OAA in component OAA (millimolar). * RATES[9] is d/dt ASP in component ASP (millimolar). * RATES[10] is d/dt Ca_m in component Ca_m (micromolar). * RATES[11] is d/dt O2_m in component O2_m (millimolar). * RATES[12] is d/dt O2_i in component O2_i (millimolar). * RATES[13] is d/dt H2O2 in component H2O2 (millimolar). * RATES[14] is d/dt GSH in component GSH (millimolar). * RATES[15] is d/dt delta_psi_m in component mitochondrial_membrane (volt). */ void initConsts(double* CONSTANTS, double* RATES, double *STATES) { STATES[0] = 0.1; STATES[1] = 0.01; STATES[2] = 0.01; STATES[3] = 0.01; STATES[4] = 0.01; STATES[5] = 0.01; STATES[6] = 0.01; STATES[7] = 0.01; STATES[8] = 0.01; STATES[9] = 0.01; STATES[10] = 0.01; CONSTANTS[0] = 0.0003; CONSTANTS[1] = 0; CONSTANTS[2] = 10000; CONSTANTS[3] = 0.4; CONSTANTS[4] = 1; CONSTANTS[5] = 10.0; CONSTANTS[6] = 6.5; CONSTANTS[7] = 15.0; CONSTANTS[8] = 0.15; CONSTANTS[9] = 20; CONSTANTS[10] = 0.4; CONSTANTS[11] = 2.5E-5; CONSTANTS[12] = 20.0; CONSTANTS[13] = 0.02; CONSTANTS[14] = 0.0002; CONSTANTS[15] = 0.01; CONSTANTS[16] = 1.24; CONSTANTS[17] = 10.0; CONSTANTS[18] = 1.0; STATES[11] = 0.01; CONSTANTS[19] = 0.05; STATES[12] = 0.01; STATES[13] = 0.01; STATES[14] = 0.01; CONSTANTS[20] = 1.0; CONSTANTS[21] = 1.0; STATES[15] = 0.01; CONSTANTS[22] = 8.315; CONSTANTS[23] = 310.16; CONSTANTS[24] = 96480; CONSTANTS[25] = 1.812; CONSTANTS[26] = 1.26E-2; CONSTANTS[27] = 6.4E-4; CONSTANTS[28] = 3.2; CONSTANTS[29] = 0.4; CONSTANTS[30] = 12.5; CONSTANTS[31] = 2.22; CONSTANTS[32] = 8.1E-5; CONSTANTS[33] = 5.98E-5; CONSTANTS[34] = 1.52; CONSTANTS[35] = 6.2E-2; CONSTANTS[36] = 1.41; CONSTANTS[37] = 0.923; CONSTANTS[38] = 0.19; CONSTANTS[39] = 1.94; CONSTANTS[40] = 0.109; CONSTANTS[41] = 1; CONSTANTS[42] = 1.94; CONSTANTS[43] = 0.15; CONSTANTS[44] = 0.5; CONSTANTS[45] = 0.0308; CONSTANTS[46] = 1.27; CONSTANTS[47] = 1.2; CONSTANTS[48] = 38.7; CONSTANTS[49] = 0.127; CONSTANTS[50] = 3.115; CONSTANTS[51] = 0.15; CONSTANTS[52] = 1.0; CONSTANTS[53] = 0.5; CONSTANTS[54] = 3.0E-2; CONSTANTS[55] = 1.3; CONSTANTS[56] = 1.493; CONSTANTS[57] = 2.775E1; CONSTANTS[58] = 0.154; CONSTANTS[59] = 3.1E-3; CONSTANTS[60] = 0.2244; CONSTANTS[61] = 1.13E-5; CONSTANTS[62] = 26.7; CONSTANTS[63] = 6.68E-9; CONSTANTS[64] = 5.62E-6; CONSTANTS[65] = 3.99E-2; CONSTANTS[66] = 1.0; CONSTANTS[67] = 0.83; CONSTANTS[68] = 6.6; CONSTANTS[69] = 0.644; CONSTANTS[70] = 0.01; CONSTANTS[71] = 2.4E6; CONSTANTS[72] = 4.8E4; CONSTANTS[73] = 5.0E-1; CONSTANTS[74] = 0.4E-3; CONSTANTS[75] = 0.5; CONSTANTS[76] = 1.7E4; CONSTANTS[77] = 0.001; CONSTANTS[78] = 50.0; CONSTANTS[79] = 0.15; CONSTANTS[80] = 0.5; CONSTANTS[81] = 0.00141; CONSTANTS[82] = 0.0308; CONSTANTS[83] = 1.94; CONSTANTS[84] = 38.7; CONSTANTS[85] = 1.27E-3; CONSTANTS[86] = 7.82; CONSTANTS[87] = 0.0782; CONSTANTS[88] = 1.0E-3; CONSTANTS[89] = 1.0E4; CONSTANTS[90] = 70.0; CONSTANTS[91] = 0.004; CONSTANTS[92] = 0.01; CONSTANTS[93] = 0.12; CONSTANTS[94] = 0.0006; CONSTANTS[95] = 0.0045; CONSTANTS[96] = 6.394E-10; CONSTANTS[97] = 2.656E-19; CONSTANTS[98] = 2.077E-18; CONSTANTS[99] = 1.728E-9; CONSTANTS[100] = 1.059E-26; CONSTANTS[101] = 1.762E-13; CONSTANTS[102] = 8.632E-27; CONSTANTS[103] = 1.35E18; CONSTANTS[104] = 5.765E13; CONSTANTS[105] = 0.01; CONSTANTS[106] = 0.05; CONSTANTS[107] = 0.85; CONSTANTS[108] = -0.6; CONSTANTS[109] = 0.06; CONSTANTS[110] = 1.656E-5; CONSTANTS[111] = 9.651E-14; CONSTANTS[112] = 1.346E-8; CONSTANTS[113] = 7.739E-7; CONSTANTS[114] = 6.65E-15; CONSTANTS[115] = 3.373E-7; CONSTANTS[116] = 4.585E-14; CONSTANTS[117] = 1.71E6; CONSTANTS[118] = 0.5; CONSTANTS[119] = 0.091; CONSTANTS[120] = 0.05; CONSTANTS[121] = 110.0; CONSTANTS[122] = 2.8; CONSTANTS[123] = 0.000625; CONSTANTS[124] = 0.38; CONSTANTS[125] = 19.0; CONSTANTS[126] = 3.0; CONSTANTS[127] = 0.005; CONSTANTS[128] = 9.4; CONSTANTS[129] = 3.75E-1; CONSTANTS[130] = 0.5; CONSTANTS[131] = (( CONSTANTS[22]*CONSTANTS[23])/CONSTANTS[24])*log( CONSTANTS[104]*pow(CONSTANTS[16]/CONSTANTS[15], 0.500000)); CONSTANTS[132] = 1.00000/(1.00000+CONSTANTS[11]/CONSTANTS[61]+pow(CONSTANTS[11], 2.00000)/( CONSTANTS[61]*CONSTANTS[62]))+CONSTANTS[65]; CONSTANTS[133] = pow(1.00000/(1.00000+CONSTANTS[63]/CONSTANTS[11]+( CONSTANTS[63]*CONSTANTS[64])/pow(CONSTANTS[11], 2.00000)), 2.00000); } void computeRates(double VOI, double* CONSTANTS, double* RATES, double* STATES, double* ALGEBRAIC) { ALGEBRAIC[4] = CONSTANTS[17] - STATES[1]; ALGEBRAIC[9] = ( CONSTANTS[39]*CONSTANTS[40])/(1.00000+CONSTANTS[11]/CONSTANTS[32]+CONSTANTS[33]/CONSTANTS[11]+pow(CONSTANTS[34]/STATES[2], CONSTANTS[41])/( (1.00000+STATES[0]/CONSTANTS[35])*(1.00000+STATES[10]/CONSTANTS[36]))+ (CONSTANTS[37]/ALGEBRAIC[4])*(1.00000+STATES[1]/CONSTANTS[38])+( pow(CONSTANTS[34]/STATES[2], CONSTANTS[41])*(CONSTANTS[37]/ALGEBRAIC[4])*(1.00000+STATES[1]/CONSTANTS[38]))/( (1.00000+STATES[0]/CONSTANTS[35])*(1.00000+STATES[10]/CONSTANTS[36]))); ALGEBRAIC[6] = CONSTANTS[21] - (STATES[2]+STATES[3]+STATES[4]+STATES[5]+STATES[6]+STATES[7]+STATES[8]); ALGEBRAIC[8] = CONSTANTS[30]*(ALGEBRAIC[6] - STATES[2]/CONSTANTS[31]); RATES[2] = ALGEBRAIC[8] - ALGEBRAIC[9]; ALGEBRAIC[2] = CONSTANTS[7] - STATES[0]; ALGEBRAIC[11] = CONSTANTS[49]*( STATES[4]*STATES[0] - ( STATES[5]*ALGEBRAIC[2]*CONSTANTS[13])/CONSTANTS[50]); ALGEBRAIC[10] = ( CONSTANTS[43]*CONSTANTS[44])/(1.00000+pow(CONSTANTS[42]/STATES[3], CONSTANTS[47])/( (1.00000+CONSTANTS[10]/CONSTANTS[45])*(1.00000+STATES[10]/CONSTANTS[46]))+(CONSTANTS[48]/ALGEBRAIC[4])/( (1.00000+CONSTANTS[10]/CONSTANTS[45])*(1.00000+STATES[10]/CONSTANTS[46]))); RATES[4] = ALGEBRAIC[10] - ALGEBRAIC[11]; ALGEBRAIC[12] = ( CONSTANTS[52]*CONSTANTS[53])/(1.00000+ (CONSTANTS[54]/STATES[5])*(1.00000+STATES[8]/CONSTANTS[51])*(1.00000+STATES[6]/CONSTANTS[55])); RATES[5] = ALGEBRAIC[11] - ALGEBRAIC[12]; ALGEBRAIC[15] = CONSTANTS[69]*( STATES[8]*CONSTANTS[9] - ( STATES[3]*STATES[9])/CONSTANTS[68]); RATES[3] = ALGEBRAIC[15]+ALGEBRAIC[9]+- ALGEBRAIC[10]; ALGEBRAIC[16] = CONSTANTS[67]*(STATES[6] - STATES[7]/CONSTANTS[66]); RATES[6] = ALGEBRAIC[12] - ALGEBRAIC[16]; ALGEBRAIC[13] = ( CONSTANTS[57]*CONSTANTS[58]*CONSTANTS[132]*CONSTANTS[133])/(1.00000+ (CONSTANTS[56]/STATES[7])*(1.00000+STATES[8]/CONSTANTS[59])+CONSTANTS[60]/ALGEBRAIC[4]+ (CONSTANTS[56]/STATES[7])*(1.00000+STATES[8]/CONSTANTS[59])*(CONSTANTS[60]/ALGEBRAIC[4])); RATES[7] = ALGEBRAIC[16] - ALGEBRAIC[13]; ALGEBRAIC[7] = ( CONSTANTS[28]*CONSTANTS[29])/(1.00000+CONSTANTS[26]/CONSTANTS[14]+CONSTANTS[27]/STATES[8]+ (CONSTANTS[26]/CONSTANTS[14])*(CONSTANTS[27]/STATES[8])); RATES[8] = ALGEBRAIC[13] - (ALGEBRAIC[7]+ALGEBRAIC[15]); ALGEBRAIC[18] = CONSTANTS[70]*STATES[9]; RATES[9] = ALGEBRAIC[15] - ALGEBRAIC[18]; ALGEBRAIC[17] = (CONSTANTS[88]+CONSTANTS[89]/(1.00000+CONSTANTS[92]/STATES[12]))*(CONSTANTS[87]+CONSTANTS[86]/(1.00000+exp( CONSTANTS[90]*(CONSTANTS[91] - STATES[15]))))*STATES[15]; ALGEBRAIC[20] = CONSTANTS[93]*(ALGEBRAIC[17]/STATES[15])*(STATES[15] - (( CONSTANTS[22]*CONSTANTS[23])/CONSTANTS[24])*arbitrary_log(STATES[11]/STATES[12], 10)); ALGEBRAIC[14] = ( 2.00000*CONSTANTS[71]*CONSTANTS[73]*(CONSTANTS[71]+ CONSTANTS[72]*(1.00000+STATES[13]/CONSTANTS[75]))*CONSTANTS[74]*STATES[12])/( CONSTANTS[73]*( 2.00000*CONSTANTS[71]+ CONSTANTS[72]*(1.00000+STATES[13]/CONSTANTS[75]))+ STATES[12]*CONSTANTS[71]*CONSTANTS[72]*(1.00000+STATES[13]/CONSTANTS[75])); RATES[12] = ALGEBRAIC[20] - ALGEBRAIC[14]; ALGEBRAIC[19] = 2.00000*CONSTANTS[76]*CONSTANTS[77]*STATES[13]*exp( - CONSTANTS[78]*STATES[13]); ALGEBRAIC[21] = ( CONSTANTS[81]*STATES[13]*STATES[14])/( CONSTANTS[79]*STATES[14]+ CONSTANTS[80]*STATES[13]); RATES[13] = ALGEBRAIC[14] - (ALGEBRAIC[19]+ALGEBRAIC[21]); ALGEBRAIC[5] = 2.00000*(CONSTANTS[20] - STATES[14]); ALGEBRAIC[23] = ( CONSTANTS[82]*CONSTANTS[85])/(1.00000+CONSTANTS[83]/ALGEBRAIC[5]+CONSTANTS[84]/CONSTANTS[18]+ (CONSTANTS[83]/ALGEBRAIC[5])*(CONSTANTS[84]/CONSTANTS[18])); RATES[14] = ALGEBRAIC[23] - ALGEBRAIC[21]; ALGEBRAIC[22] = (( CONSTANTS[22]*CONSTANTS[23])/CONSTANTS[24])*log( CONSTANTS[103]*pow(STATES[1]/ALGEBRAIC[4], 0.500000)); ALGEBRAIC[24] = (( CONSTANTS[22]*CONSTANTS[23])/CONSTANTS[24])*CONSTANTS[108]+STATES[15]; ALGEBRAIC[26] = 0.500000*CONSTANTS[94]*((( (CONSTANTS[96]+ CONSTANTS[97]*exp(( 6.00000*CONSTANTS[24]*CONSTANTS[106])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( ALGEBRAIC[22]*CONSTANTS[24])/( CONSTANTS[22]*CONSTANTS[23])) - CONSTANTS[96]*exp(( CONSTANTS[107]*6.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23])))+ CONSTANTS[102]*exp(( ALGEBRAIC[22]*CONSTANTS[24])/( CONSTANTS[22]*CONSTANTS[23]))*exp(( CONSTANTS[107]*6.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23])))/( (1.00000+ CONSTANTS[98]*exp(( CONSTANTS[24]*ALGEBRAIC[22])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( 6.00000*CONSTANTS[24]*CONSTANTS[106])/( CONSTANTS[22]*CONSTANTS[23]))+ (CONSTANTS[99]+ CONSTANTS[100]*exp(( CONSTANTS[24]*ALGEBRAIC[22])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( CONSTANTS[107]*6.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23])))); RATES[1] = - ALGEBRAIC[26]+ALGEBRAIC[9]+ALGEBRAIC[10]+ALGEBRAIC[13]; RATES[11] = CONSTANTS[19]*ALGEBRAIC[26] - ALGEBRAIC[20]; ALGEBRAIC[3] = (VOI>=100.000&&VOI<300.000 ? CONSTANTS[8] : 0.0500000); ALGEBRAIC[32] = CONSTANTS[120]*((1.00000 - ( 0.0500000*CONSTANTS[6]*0.450000*0.800000*STATES[0])/( 0.450000*ALGEBRAIC[3]*0.0500000*ALGEBRAIC[2]))/( (1.00000+ (( 0.0500000*CONSTANTS[6])/( 0.450000*ALGEBRAIC[3]))*exp(( - CONSTANTS[118]*CONSTANTS[24]*CONSTANTS[119])/( CONSTANTS[22]*CONSTANTS[23])))*(1.00000+( 0.450000*0.800000*STATES[0])/( 0.0500000*ALGEBRAIC[2])))); ALGEBRAIC[29] = (( CONSTANTS[22]*CONSTANTS[23])/CONSTANTS[24])*log( CONSTANTS[117]*(ALGEBRAIC[2]/( STATES[0]*CONSTANTS[12]))); ALGEBRAIC[30] = - CONSTANTS[109]*(( ( 100.000*CONSTANTS[110]+ CONSTANTS[111]*exp(( 3.00000*CONSTANTS[24]*CONSTANTS[106])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( ALGEBRAIC[29]*CONSTANTS[24])/( CONSTANTS[22]*CONSTANTS[23])) - ( CONSTANTS[110]*exp(( 3.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23]))+ CONSTANTS[116]*exp(( ALGEBRAIC[29]*CONSTANTS[24])/( CONSTANTS[22]*CONSTANTS[23]))*exp(( 3.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23]))))/( (1.00000+ CONSTANTS[112]*exp(( CONSTANTS[24]*ALGEBRAIC[29])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( 3.00000*CONSTANTS[24]*CONSTANTS[106])/( CONSTANTS[22]*CONSTANTS[23]))+ (CONSTANTS[113]+ CONSTANTS[114]*exp(( CONSTANTS[24]*ALGEBRAIC[29])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( 3.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23])))); RATES[0] = ALGEBRAIC[32] - (ALGEBRAIC[30]+ALGEBRAIC[11]); ALGEBRAIC[0] = (VOI>=100.000&&VOI<300.000 ? 0.500000 : 4.00000); ALGEBRAIC[1] = (VOI>=CONSTANTS[1]&&VOI<=CONSTANTS[2]&&(VOI - CONSTANTS[1]) - floor((VOI - CONSTANTS[1])/ALGEBRAIC[0])*ALGEBRAIC[0]<=CONSTANTS[3] ? CONSTANTS[4] : 0.100000); ALGEBRAIC[33] = CONSTANTS[123]*(( (ALGEBRAIC[1]/CONSTANTS[125])*pow(1.00000+ALGEBRAIC[1]/CONSTANTS[125], 3.00000)*(( 2.00000*CONSTANTS[24]*(STATES[15] - CONSTANTS[119]))/( CONSTANTS[22]*CONSTANTS[23])))/(pow(1.00000+ALGEBRAIC[1]/CONSTANTS[125], 4.00000)+ (CONSTANTS[121]/pow(1.00000+ALGEBRAIC[1]/CONSTANTS[124], CONSTANTS[122]))*(1.00000 - exp(( -2.00000*CONSTANTS[24]*(STATES[15] - CONSTANTS[119]))/( CONSTANTS[22]*CONSTANTS[23]))))); ALGEBRAIC[34] = CONSTANTS[127]*(( exp(( CONSTANTS[130]*CONSTANTS[24]*(STATES[15] - CONSTANTS[119]))/( CONSTANTS[22]*CONSTANTS[23]))*exp(log(ALGEBRAIC[1]/STATES[10])))/( pow(1.00000+CONSTANTS[128]/CONSTANTS[5], CONSTANTS[126])*(1.00000+CONSTANTS[129]/STATES[10]))); RATES[10] = CONSTANTS[0]*1.00000*(ALGEBRAIC[33] - ALGEBRAIC[34]); ALGEBRAIC[25] = 6.00000*CONSTANTS[94]*(( CONSTANTS[96]*exp(( CONSTANTS[24]*ALGEBRAIC[22])/( CONSTANTS[22]*CONSTANTS[23])) - (CONSTANTS[96]+CONSTANTS[101])*exp(( CONSTANTS[107]*6.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23])))/( (1.00000+ CONSTANTS[98]*exp(( CONSTANTS[24]*ALGEBRAIC[22])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( 6.00000*CONSTANTS[24]*CONSTANTS[106])/( CONSTANTS[22]*CONSTANTS[23]))+ (CONSTANTS[99]+ CONSTANTS[100]*exp(( CONSTANTS[24]*ALGEBRAIC[22])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( CONSTANTS[107]*6.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23])))); ALGEBRAIC[27] = 6.00000*CONSTANTS[95]*(( CONSTANTS[96]*exp(( CONSTANTS[24]*CONSTANTS[131])/( CONSTANTS[22]*CONSTANTS[23])) - (CONSTANTS[96]+CONSTANTS[101])*exp(( CONSTANTS[107]*6.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23])))/( (1.00000+ CONSTANTS[98]*exp(( CONSTANTS[24]*CONSTANTS[131])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( 6.00000*CONSTANTS[24]*CONSTANTS[106])/( CONSTANTS[22]*CONSTANTS[23]))+ (CONSTANTS[99]+ CONSTANTS[100]*exp(( CONSTANTS[24]*CONSTANTS[131])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( CONSTANTS[107]*6.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23])))); ALGEBRAIC[31] = -3.00000*CONSTANTS[109]*(( 100.000*CONSTANTS[110]*(1.00000+exp(( CONSTANTS[24]*ALGEBRAIC[29])/( CONSTANTS[22]*CONSTANTS[23]))) - (CONSTANTS[110]+CONSTANTS[115])*exp(( 3.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23])))/( (1.00000+ CONSTANTS[112]*exp(( CONSTANTS[24]*ALGEBRAIC[29])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( 3.00000*CONSTANTS[24]*CONSTANTS[106])/( CONSTANTS[22]*CONSTANTS[23]))+ (CONSTANTS[113]+ CONSTANTS[114]*exp(( CONSTANTS[24]*ALGEBRAIC[29])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( 3.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23])))); ALGEBRAIC[28] = CONSTANTS[105]*ALGEBRAIC[24]; RATES[15] = (ALGEBRAIC[25]+ALGEBRAIC[27]+- (ALGEBRAIC[31]+ALGEBRAIC[32]+ALGEBRAIC[28]+ALGEBRAIC[34]+ 2.00000*ALGEBRAIC[33]))/CONSTANTS[25]; } void computeVariables(double VOI, double* CONSTANTS, double* RATES, double* STATES, double* ALGEBRAIC) { ALGEBRAIC[4] = CONSTANTS[17] - STATES[1]; ALGEBRAIC[9] = ( CONSTANTS[39]*CONSTANTS[40])/(1.00000+CONSTANTS[11]/CONSTANTS[32]+CONSTANTS[33]/CONSTANTS[11]+pow(CONSTANTS[34]/STATES[2], CONSTANTS[41])/( (1.00000+STATES[0]/CONSTANTS[35])*(1.00000+STATES[10]/CONSTANTS[36]))+ (CONSTANTS[37]/ALGEBRAIC[4])*(1.00000+STATES[1]/CONSTANTS[38])+( pow(CONSTANTS[34]/STATES[2], CONSTANTS[41])*(CONSTANTS[37]/ALGEBRAIC[4])*(1.00000+STATES[1]/CONSTANTS[38]))/( (1.00000+STATES[0]/CONSTANTS[35])*(1.00000+STATES[10]/CONSTANTS[36]))); ALGEBRAIC[6] = CONSTANTS[21] - (STATES[2]+STATES[3]+STATES[4]+STATES[5]+STATES[6]+STATES[7]+STATES[8]); ALGEBRAIC[8] = CONSTANTS[30]*(ALGEBRAIC[6] - STATES[2]/CONSTANTS[31]); ALGEBRAIC[2] = CONSTANTS[7] - STATES[0]; ALGEBRAIC[11] = CONSTANTS[49]*( STATES[4]*STATES[0] - ( STATES[5]*ALGEBRAIC[2]*CONSTANTS[13])/CONSTANTS[50]); ALGEBRAIC[10] = ( CONSTANTS[43]*CONSTANTS[44])/(1.00000+pow(CONSTANTS[42]/STATES[3], CONSTANTS[47])/( (1.00000+CONSTANTS[10]/CONSTANTS[45])*(1.00000+STATES[10]/CONSTANTS[46]))+(CONSTANTS[48]/ALGEBRAIC[4])/( (1.00000+CONSTANTS[10]/CONSTANTS[45])*(1.00000+STATES[10]/CONSTANTS[46]))); ALGEBRAIC[12] = ( CONSTANTS[52]*CONSTANTS[53])/(1.00000+ (CONSTANTS[54]/STATES[5])*(1.00000+STATES[8]/CONSTANTS[51])*(1.00000+STATES[6]/CONSTANTS[55])); ALGEBRAIC[15] = CONSTANTS[69]*( STATES[8]*CONSTANTS[9] - ( STATES[3]*STATES[9])/CONSTANTS[68]); ALGEBRAIC[16] = CONSTANTS[67]*(STATES[6] - STATES[7]/CONSTANTS[66]); ALGEBRAIC[13] = ( CONSTANTS[57]*CONSTANTS[58]*CONSTANTS[132]*CONSTANTS[133])/(1.00000+ (CONSTANTS[56]/STATES[7])*(1.00000+STATES[8]/CONSTANTS[59])+CONSTANTS[60]/ALGEBRAIC[4]+ (CONSTANTS[56]/STATES[7])*(1.00000+STATES[8]/CONSTANTS[59])*(CONSTANTS[60]/ALGEBRAIC[4])); ALGEBRAIC[7] = ( CONSTANTS[28]*CONSTANTS[29])/(1.00000+CONSTANTS[26]/CONSTANTS[14]+CONSTANTS[27]/STATES[8]+ (CONSTANTS[26]/CONSTANTS[14])*(CONSTANTS[27]/STATES[8])); ALGEBRAIC[18] = CONSTANTS[70]*STATES[9]; ALGEBRAIC[17] = (CONSTANTS[88]+CONSTANTS[89]/(1.00000+CONSTANTS[92]/STATES[12]))*(CONSTANTS[87]+CONSTANTS[86]/(1.00000+exp( CONSTANTS[90]*(CONSTANTS[91] - STATES[15]))))*STATES[15]; ALGEBRAIC[20] = CONSTANTS[93]*(ALGEBRAIC[17]/STATES[15])*(STATES[15] - (( CONSTANTS[22]*CONSTANTS[23])/CONSTANTS[24])*arbitrary_log(STATES[11]/STATES[12], 10)); ALGEBRAIC[14] = ( 2.00000*CONSTANTS[71]*CONSTANTS[73]*(CONSTANTS[71]+ CONSTANTS[72]*(1.00000+STATES[13]/CONSTANTS[75]))*CONSTANTS[74]*STATES[12])/( CONSTANTS[73]*( 2.00000*CONSTANTS[71]+ CONSTANTS[72]*(1.00000+STATES[13]/CONSTANTS[75]))+ STATES[12]*CONSTANTS[71]*CONSTANTS[72]*(1.00000+STATES[13]/CONSTANTS[75])); ALGEBRAIC[19] = 2.00000*CONSTANTS[76]*CONSTANTS[77]*STATES[13]*exp( - CONSTANTS[78]*STATES[13]); ALGEBRAIC[21] = ( CONSTANTS[81]*STATES[13]*STATES[14])/( CONSTANTS[79]*STATES[14]+ CONSTANTS[80]*STATES[13]); ALGEBRAIC[5] = 2.00000*(CONSTANTS[20] - STATES[14]); ALGEBRAIC[23] = ( CONSTANTS[82]*CONSTANTS[85])/(1.00000+CONSTANTS[83]/ALGEBRAIC[5]+CONSTANTS[84]/CONSTANTS[18]+ (CONSTANTS[83]/ALGEBRAIC[5])*(CONSTANTS[84]/CONSTANTS[18])); ALGEBRAIC[22] = (( CONSTANTS[22]*CONSTANTS[23])/CONSTANTS[24])*log( CONSTANTS[103]*pow(STATES[1]/ALGEBRAIC[4], 0.500000)); ALGEBRAIC[24] = (( CONSTANTS[22]*CONSTANTS[23])/CONSTANTS[24])*CONSTANTS[108]+STATES[15]; ALGEBRAIC[26] = 0.500000*CONSTANTS[94]*((( (CONSTANTS[96]+ CONSTANTS[97]*exp(( 6.00000*CONSTANTS[24]*CONSTANTS[106])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( ALGEBRAIC[22]*CONSTANTS[24])/( CONSTANTS[22]*CONSTANTS[23])) - CONSTANTS[96]*exp(( CONSTANTS[107]*6.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23])))+ CONSTANTS[102]*exp(( ALGEBRAIC[22]*CONSTANTS[24])/( CONSTANTS[22]*CONSTANTS[23]))*exp(( CONSTANTS[107]*6.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23])))/( (1.00000+ CONSTANTS[98]*exp(( CONSTANTS[24]*ALGEBRAIC[22])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( 6.00000*CONSTANTS[24]*CONSTANTS[106])/( CONSTANTS[22]*CONSTANTS[23]))+ (CONSTANTS[99]+ CONSTANTS[100]*exp(( CONSTANTS[24]*ALGEBRAIC[22])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( CONSTANTS[107]*6.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23])))); ALGEBRAIC[3] = (VOI>=100.000&&VOI<300.000 ? CONSTANTS[8] : 0.0500000); ALGEBRAIC[32] = CONSTANTS[120]*((1.00000 - ( 0.0500000*CONSTANTS[6]*0.450000*0.800000*STATES[0])/( 0.450000*ALGEBRAIC[3]*0.0500000*ALGEBRAIC[2]))/( (1.00000+ (( 0.0500000*CONSTANTS[6])/( 0.450000*ALGEBRAIC[3]))*exp(( - CONSTANTS[118]*CONSTANTS[24]*CONSTANTS[119])/( CONSTANTS[22]*CONSTANTS[23])))*(1.00000+( 0.450000*0.800000*STATES[0])/( 0.0500000*ALGEBRAIC[2])))); ALGEBRAIC[29] = (( CONSTANTS[22]*CONSTANTS[23])/CONSTANTS[24])*log( CONSTANTS[117]*(ALGEBRAIC[2]/( STATES[0]*CONSTANTS[12]))); ALGEBRAIC[30] = - CONSTANTS[109]*(( ( 100.000*CONSTANTS[110]+ CONSTANTS[111]*exp(( 3.00000*CONSTANTS[24]*CONSTANTS[106])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( ALGEBRAIC[29]*CONSTANTS[24])/( CONSTANTS[22]*CONSTANTS[23])) - ( CONSTANTS[110]*exp(( 3.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23]))+ CONSTANTS[116]*exp(( ALGEBRAIC[29]*CONSTANTS[24])/( CONSTANTS[22]*CONSTANTS[23]))*exp(( 3.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23]))))/( (1.00000+ CONSTANTS[112]*exp(( CONSTANTS[24]*ALGEBRAIC[29])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( 3.00000*CONSTANTS[24]*CONSTANTS[106])/( CONSTANTS[22]*CONSTANTS[23]))+ (CONSTANTS[113]+ CONSTANTS[114]*exp(( CONSTANTS[24]*ALGEBRAIC[29])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( 3.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23])))); ALGEBRAIC[0] = (VOI>=100.000&&VOI<300.000 ? 0.500000 : 4.00000); ALGEBRAIC[1] = (VOI>=CONSTANTS[1]&&VOI<=CONSTANTS[2]&&(VOI - CONSTANTS[1]) - floor((VOI - CONSTANTS[1])/ALGEBRAIC[0])*ALGEBRAIC[0]<=CONSTANTS[3] ? CONSTANTS[4] : 0.100000); ALGEBRAIC[33] = CONSTANTS[123]*(( (ALGEBRAIC[1]/CONSTANTS[125])*pow(1.00000+ALGEBRAIC[1]/CONSTANTS[125], 3.00000)*(( 2.00000*CONSTANTS[24]*(STATES[15] - CONSTANTS[119]))/( CONSTANTS[22]*CONSTANTS[23])))/(pow(1.00000+ALGEBRAIC[1]/CONSTANTS[125], 4.00000)+ (CONSTANTS[121]/pow(1.00000+ALGEBRAIC[1]/CONSTANTS[124], CONSTANTS[122]))*(1.00000 - exp(( -2.00000*CONSTANTS[24]*(STATES[15] - CONSTANTS[119]))/( CONSTANTS[22]*CONSTANTS[23]))))); ALGEBRAIC[34] = CONSTANTS[127]*(( exp(( CONSTANTS[130]*CONSTANTS[24]*(STATES[15] - CONSTANTS[119]))/( CONSTANTS[22]*CONSTANTS[23]))*exp(log(ALGEBRAIC[1]/STATES[10])))/( pow(1.00000+CONSTANTS[128]/CONSTANTS[5], CONSTANTS[126])*(1.00000+CONSTANTS[129]/STATES[10]))); ALGEBRAIC[25] = 6.00000*CONSTANTS[94]*(( CONSTANTS[96]*exp(( CONSTANTS[24]*ALGEBRAIC[22])/( CONSTANTS[22]*CONSTANTS[23])) - (CONSTANTS[96]+CONSTANTS[101])*exp(( CONSTANTS[107]*6.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23])))/( (1.00000+ CONSTANTS[98]*exp(( CONSTANTS[24]*ALGEBRAIC[22])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( 6.00000*CONSTANTS[24]*CONSTANTS[106])/( CONSTANTS[22]*CONSTANTS[23]))+ (CONSTANTS[99]+ CONSTANTS[100]*exp(( CONSTANTS[24]*ALGEBRAIC[22])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( CONSTANTS[107]*6.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23])))); ALGEBRAIC[27] = 6.00000*CONSTANTS[95]*(( CONSTANTS[96]*exp(( CONSTANTS[24]*CONSTANTS[131])/( CONSTANTS[22]*CONSTANTS[23])) - (CONSTANTS[96]+CONSTANTS[101])*exp(( CONSTANTS[107]*6.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23])))/( (1.00000+ CONSTANTS[98]*exp(( CONSTANTS[24]*CONSTANTS[131])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( 6.00000*CONSTANTS[24]*CONSTANTS[106])/( CONSTANTS[22]*CONSTANTS[23]))+ (CONSTANTS[99]+ CONSTANTS[100]*exp(( CONSTANTS[24]*CONSTANTS[131])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( CONSTANTS[107]*6.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23])))); ALGEBRAIC[31] = -3.00000*CONSTANTS[109]*(( 100.000*CONSTANTS[110]*(1.00000+exp(( CONSTANTS[24]*ALGEBRAIC[29])/( CONSTANTS[22]*CONSTANTS[23]))) - (CONSTANTS[110]+CONSTANTS[115])*exp(( 3.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23])))/( (1.00000+ CONSTANTS[112]*exp(( CONSTANTS[24]*ALGEBRAIC[29])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( 3.00000*CONSTANTS[24]*CONSTANTS[106])/( CONSTANTS[22]*CONSTANTS[23]))+ (CONSTANTS[113]+ CONSTANTS[114]*exp(( CONSTANTS[24]*ALGEBRAIC[29])/( CONSTANTS[22]*CONSTANTS[23])))*exp(( 3.00000*CONSTANTS[24]*ALGEBRAIC[24])/( CONSTANTS[22]*CONSTANTS[23])))); ALGEBRAIC[28] = CONSTANTS[105]*ALGEBRAIC[24]; }