subroutine gint1(gbeta,glpsi1,gvar,bt2, *beta2,lpsi,omega,npar,x2,y2,theta2,work2,n, *dbt,dbt1,dder,ddb,li,ls,epsabs,epsrel,key,limit) implicit double precision (a-h,o-z) External f1b,fpsi,f1var DOUBLE PRECISION lpsi,lpsi1,li,ls INTEGER n,npar,y2,key,limit,neval,ier,iord,last, *m,mpar,y1,k,k1,k2,iaux,kaux DIMENSION x1(5000,10),theta1(5000), *work1(5000),y1(5000),beta1(10), *bt1(10),dbeta(10),dbeta1(10),der(10),db(3,10), * x2(n,npar-1),beta2(npar-1), *theta2(n),y2(n),work2(n),bt2(npar-1), *gbeta(npar-1),dbt(npar-1),dbt1(npar-1), *dder(npar-1),ddb(3,npar-1), *alist(limit),blist(limit),elist(limit),iord(limit), *rlist(limit) COMMON/param/x1,theta1,work1, *y1,beta1,bt1,m,mpar,omega1,lpsi1 COMMON/grad/ dbeta,dbeta1,der,db do 10 k=1,(npar-1) bt1(k)=bt2(k) beta1(k)=beta2(k) dbeta(k)=dbt(k) dbeta1(k)=dbt1(k) der(k)=dder(k) do 15 kaux=1,3 db(kaux,k)=ddb(kaux,k) 15 continue 10 continue do 30 k2=1,n do 40 k=1,(npar-1) x1(k2,k)=x2(k2,k) 40 continue y1(k2)=y2(k2) theta1(k2)=theta2(k2) work1(k2)=work2(k2) 30 continue m=n mpar=npar omega1=omega lpsi1=lpsi a=li*dexp(omega/(2.0d0)) b=ls*dexp(omega/(2.0d0)) do 50 iaux=1,(npar-1) CALL dqager(f1b,a,b,epsabs,epsrel,key,limit,res1,abserr, *neval,ier,alist,blist,rlist,elist,iord,last,iaux) gbeta(iaux)=res1 50 continue CALL dqager(fpsi,a,b,epsabs,epsrel,key,limit,res3,abserr, * neval,ier,alist,blist,rlist,elist,iord,last,1) glpsi1=res3 CALL dqager(f1var,a,b,epsabs,epsrel,key,limit,res5,abserr, * neval,ier,alist,blist,rlist,elist,iord,last,1) gvar=res5 RETURN END