Generated Code
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C C There are a total of 2 entries in the algebraic variable array. C There are a total of 5 entries in each of the rate and state variable arrays. C There are a total of 35 entries in the constant variable array. C C C VOI is time in component environment (hour). C STATES(1) is GH in component GH (ng_ml). C CONSTS(1) is GHS in component GH (dimensionless). C CONSTS(2) is k1 in component GH (first_order_rate_constant). C CONSTS(3) is kr1 in component GH (ng_ml_hr). C CONSTS(4) is t1 in component GH (pg_ml). C CONSTS(5) is n1 in component GH (dimensionless). C CONSTS(6) is n2 in component GH (dimensionless). C CONSTS(7) is g0 in component GH (dimensionless). C CONSTS(8) is ng0 in component GH (dimensionless). C CONSTS(9) is tg0 in component GH (dimensionless). C CONSTS(10) is t2 in component GH (pg_ml). C STATES(2) is SRIF_PeV in component SRIF_PeV (pg_ml). C CONSTS(34) is F1_GHS in component F (dimensionless). C STATES(3) is GHRH in component GHRH (pg_ml). C STATES(4) is ghr_GHRH in component ghr_GHRH (pg_ml). C CONSTS(11) is k4 in component SRIF_PeV (first_order_rate_constant). C CONSTS(12) is kr4 in component SRIF_PeV (pg_ml_hr). C CONSTS(13) is t5 in component SRIF_PeV (ng_ml). C CONSTS(14) is n5 in component SRIF_PeV (dimensionless). C CONSTS(15) is S_basal in component SRIF_PeV (pg_ml_hr). C STATES(5) is SRIF_ArC in component SRIF_ArC (pg_ml). C CONSTS(16) is k2 in component SRIF_ArC (first_order_rate_constant). C CONSTS(17) is kr2 in component SRIF_ArC (pg_ml_hr). C CONSTS(18) is t3 in component SRIF_ArC (pg_ml). C CONSTS(19) is n3 in component SRIF_ArC (dimensionless). C CONSTS(20) is k3 in component GHRH (first_order_rate_constant). C CONSTS(21) is kr3 in component GHRH (pg_ml_hr). C CONSTS(22) is t4 in component GHRH (pg_ml). C CONSTS(23) is n4 in component GHRH (dimensionless). C CONSTS(35) is F2_GHS in component F (dimensionless). C CONSTS(24) is g1 in component F (dimensionless). C CONSTS(25) is g2 in component F (dimensionless). C CONSTS(26) is tg1 in component F (dimensionless). C CONSTS(27) is tg2 in component F (dimensionless). C CONSTS(28) is ng1 in component F (dimensionless). C CONSTS(29) is ng2 in component F (dimensionless). C ALGBRC(2) is dghr_GHRH_dt in component ghr_GHRH (pg_ml_hr). C ALGBRC(1) is inject in component ghr_GHRH (pg_ml_hr). C CONSTS(30) is kghr in component ghr_GHRH (first_order_rate_constant). C CONSTS(31) is C in component ghr_GHRH (pg_ml_hr). C CONSTS(32) is onset in component ghr_GHRH (hour). C CONSTS(33) is duration in component ghr_GHRH (hour). C RATES(1) is d/dt GH in component GH (ng_ml). C RATES(2) is d/dt SRIF_PeV in component SRIF_PeV (pg_ml). C RATES(5) is d/dt SRIF_ArC in component SRIF_ArC (pg_ml). C RATES(3) is d/dt GHRH in component GHRH (pg_ml). C RATES(4) is d/dt ghr_GHRH in component ghr_GHRH (pg_ml). C SUBROUTINE initConsts(CONSTS, RATES, STATES) REAL CONSTS(*), RATES(*), STATES(*) STATES(1) = 0.0 CONSTS(1) = 20.0 CONSTS(2) = 3.0 CONSTS(3) = 600.0 CONSTS(4) = 357.0 CONSTS(5) = 5.0 CONSTS(6) = 2.0 CONSTS(7) = 2.0 CONSTS(8) = 2.9 CONSTS(9) = 200.0 CONSTS(10) = 10.0 STATES(2) = 0.0 STATES(3) = 0.0 STATES(4) = 0.0 CONSTS(11) = 25.0 CONSTS(12) = 20400.0 CONSTS(13) = 10.0 CONSTS(14) = 2.0 CONSTS(15) = 900.0 STATES(5) = 0.0 CONSTS(16) = 25.0 CONSTS(17) = 2200.0 CONSTS(18) = 400.0 CONSTS(19) = 2.0 CONSTS(20) = 40.0 CONSTS(21) = 63000.0 CONSTS(22) = 28.0 CONSTS(23) = 5.0 CONSTS(24) = 90000.0 CONSTS(25) = 100.0 CONSTS(26) = 390.0 CONSTS(27) = 10000.0 CONSTS(28) = 3.0 CONSTS(29) = 2.0 CONSTS(30) = 15.0 CONSTS(31) = 10000.0 CONSTS(32) = 2.0 CONSTS(33) = 0.2 CONSTS(34) = CONSTS(24)*(CONSTS(1)/CONSTS(26) ** CONSTS(28)/(1.00000+CONSTS(1)/CONSTS(26) ** CONSTS(28))) CONSTS(35) = CONSTS(25)*(CONSTS(1)/CONSTS(27) ** CONSTS(29)/(1.00000+CONSTS(1)/CONSTS(27) ** CONSTS(29))) RETURN END SUBROUTINE computeRates(VOI, CONSTS, RATES, STATES, ALGBRC) REAL VOI, CONSTS(*), RATES(*), STATES(*), ALGBRC(*) RATES(1) = CONSTS(3)*((STATES(3)+STATES(4))/CONSTS(4) ** CONSTS(5)/((STATES(3)+STATES(4))/CONSTS(4) ** CONSTS(5)+1.00000)+ CONSTS(7)*(CONSTS(1)/CONSTS(9) ** CONSTS(8)/(1.00000+CONSTS(1)/CONSTS(9) ** CONSTS(8)))+(1.00000+CONSTS(34))/(1.00000+STATES(2)/CONSTS(10) ** CONSTS(6)+CONSTS(34))) - CONSTS(2)*STATES(1) RATES(2) = - ( CONSTS(11)*STATES(2))+ CONSTS(12)*(STATES(1)/CONSTS(13) ** CONSTS(14)/(STATES(1)/CONSTS(13) ** CONSTS(14)+1.00000))+CONSTS(15) RATES(5) = CONSTS(17)*((STATES(3)+STATES(4))/CONSTS(18) ** CONSTS(19)/(1.00000+(STATES(3)+STATES(4))/CONSTS(18) ** CONSTS(19))) - CONSTS(16)*STATES(5) RATES(3) = ( CONSTS(21)*((1.00000+CONSTS(35))/(1.00000+(STATES(2)+STATES(5))/CONSTS(22) ** CONSTS(23)+CONSTS(35)))+ STATES(4)*1.00000) - CONSTS(20)*STATES(3) ALGBRC(1) = TERNRY(VOI.LT.CONSTS(32), 0.00000, TERNRY(VOI.GE.CONSTS(32).AND.VOI.LE.CONSTS(32)+CONSTS(33), CONSTS(31), TERNRY(VOI.GT.CONSTS(32)+CONSTS(33), 0.00000, 0.0/0.0) RATES(4) = ALGBRC(1) - CONSTS(30)*STATES(4) RETURN END SUBROUTINE computeVariables(VOI, CONSTS, RATES, STATES, ALGBRC) REAL VOI, CONSTS(*), RATES(*), STATES(*), ALGBRC(*) ALGBRC(1) = TERNRY(VOI.LT.CONSTS(32), 0.00000, TERNRY(VOI.GE.CONSTS(32).AND.VOI.LE.CONSTS(32)+CONSTS(33), CONSTS(31), TERNRY(VOI.GT.CONSTS(32)+CONSTS(33), 0.00000, 0.0/0.0) ALGBRC(2) = ALGBRC(1) - CONSTS(30)*STATES(4) RETURN END REAL FUNCTION TERNRY(TEST, VALA, VALB) LOGICAL TEST REAL VALA, VALB IF (TEST) THEN TERNRY = VALA ELSE TERNRY = VALB ENDIF RETURN END