* $Id$
    
C*********************************************************************  
    
      FUNCTION ULALPS_HIJING(Q2)   
    
C...Purpose: to give the value of alpha_strong. 
#include "ludat1_hijing.inc"
#include "ludat2_hijing.inc"
    
C...Constant alpha_strong trivial.  
      IF(MSTU(111).LE.0) THEN   
        ULALPS_HIJING=PARU(111)    
        MSTU(118)=MSTU(112) 
        PARU(117)=0.    
        PARU(118)=PARU(111) 
        RETURN  
      ENDIF 
    
C...Find effective Q2, number of flavours and Lambda.   
      Q2EFF=Q2  
      IF(MSTU(115).GE.2) Q2EFF=MAX(Q2,PARU(114))    
      NF=MSTU(112)  
      ALAM2=PARU(112)**2    
  100 IF(NF.GT.MAX(2,MSTU(113))) THEN   
        Q2THR=PARU(113)*PMAS(NF,1)**2   
        IF(Q2EFF.LT.Q2THR) THEN 
          NF=NF-1   
          ALAM2=ALAM2*(Q2THR/ALAM2)**(2./(33.-2.*NF))   
          GOTO 100  
        ENDIF   
      ENDIF 
  110 IF(NF.LT.MIN(8,MSTU(114))) THEN   
        Q2THR=PARU(113)*PMAS(NF+1,1)**2 
        IF(Q2EFF.GT.Q2THR) THEN 
          NF=NF+1   
          ALAM2=ALAM2*(ALAM2/Q2THR)**(2./(33.-2.*NF))   
          GOTO 110  
        ENDIF   
      ENDIF 
      IF(MSTU(115).EQ.1) Q2EFF=Q2EFF+ALAM2  
      PARU(117)=SQRT(ALAM2) 
    
C...Evaluate first or second order alpha_strong.    
      B0=(33.-2.*NF)/6. 
      ALGQ=LOG(Q2EFF/ALAM2) 
      IF(MSTU(111).EQ.1) THEN   
        ULALPS_HIJING=PARU(2)/(B0*ALGQ)    
      ELSE  
        B1=(153.-19.*NF)/6. 
        ULALPS_HIJING=PARU(2)/(B0*ALGQ)*(1.-B1*LOG(ALGQ)/(B0**2*ALGQ)) 
      ENDIF 
      MSTU(118)=NF  
      PARU(118)=ULALPS_HIJING  
    
      RETURN    
      END