https://github.com/cran/quantreg
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Tip revision: f39e98d0589cda7bf880a39eb006b695ca569bbc authored by Roger Koenker on 28 February 2013, 00:00:00 UTC
version 4.96
Tip revision: f39e98d
rqfnb.f
C Output from Public domain Ratfor, version 1.0
      subroutine rqfnb(n,p,a,y,rhs,d,u,beta,eps,wn,wp,nit,info)
      integer n,p,info,nit(3)
      double precision a(p,n),y(n),rhs(p),d(n),u(n),wn(n,9),wp(p,p+3)
      double precision one,beta,eps
      parameter( one = 1.0d0)
      call lpfnb(n,p,a,y,rhs,d,u,beta,eps,wn(1,1),wn(1,2), wp(1,1),wn(1,
     *3),wn(1,4),wn(1,5),wn(1,6), wp(1,2),wn(1,7),wn(1,8),wn(1,9),wp(1,3
     *),wp(1,4),nit,info)
      return
      end
      subroutine lpfnb(n,p,a,c,b,d,u,beta,eps,x,s,y,z,w, dx,ds,dy,dz,dw,
     *dr,rhs,ada,nit,info)
      integer n,p,pp,i,info,nit(3),maxit
      double precision a(p,n),c(n),b(p)
      double precision zero,one,mone,big,ddot,dmax1,dmin1,dxdz,dsdw
      double precision deltap,deltad,beta,eps,mu,gap,g
      double precision x(n),u(n),s(n),y(p),z(n),w(n),d(n),rhs(p),ada(p,p
     *)
      double precision dx(n),ds(n),dy(p),dz(n),dw(n),dr(n)
      parameter( zero = 0.0d0)
      parameter( one = 1.0d0)
      parameter( mone = -1.0d0)
      parameter( big = 1.0d+20)
      parameter( maxit = 50)
      nit(1)=0
      nit(2)=0
      nit(3)=n
      pp=p*p
      call dgemv('N',p,n,one,a,p,c,1,zero,y,1)
      do23000 i=1,n
      d(i)=one
23000 continue
23001 continue
      call stepy(n,p,a,d,y,ada,info)
      if(info .ne. 0)then
      return
      endif
      call dcopy(n,c,1,s,1)
      call dgemv('T',p,n,mone,a,p,y,1,one,s,1)
      do23004 i=1,n
      if(dabs(s(i)).lt.eps)then
      z(i)=dmax1(s(i), zero) + eps
      w(i)=dmax1(-s(i),zero) + eps
      else
      z(i)=dmax1(s(i), zero)
      w(i)=dmax1(-s(i),zero)
      endif
      s(i)=u(i)-x(i)
23004 continue
23005 continue
      gap = ddot(n,z,1,x,1)+ddot(n,w,1,s,1)
23008 if(gap .gt. eps .and. nit(1).lt.maxit)then
      nit(1)=nit(1)+1
      do23010 i = 1,n
      d(i) = one/(z(i)/x(i) + w(i)/s(i))
      ds(i)=z(i)-w(i)
      dz(i)=d(i)*ds(i)
23010 continue
23011 continue
      call dcopy(p,b,1,dy,1)
      call dgemv('N',p,n,mone,a,p,x,1,one,dy,1)
      call dgemv('N',p,n,one,a,p,dz,1,one,dy,1)
      call dcopy(p,dy,1,rhs,1)
      call stepy(n,p,a,d,dy,ada,info)
      if(info .ne. 0)then
      return
      endif
      call dgemv('T',p,n,one,a,p,dy,1,mone,ds,1)
      deltap=big
      deltad=big
      do23014 i=1,n
      dx(i)=d(i)*ds(i)
      ds(i)=-dx(i)
      dz(i)=-z(i)*(dx(i)/x(i) + one)
      dw(i)=-w(i)*(ds(i)/s(i) + one)
      if(dx(i).lt.0)then
      deltap=dmin1(deltap,-x(i)/dx(i))
      endif
      if(ds(i).lt.0)then
      deltap=dmin1(deltap,-s(i)/ds(i))
      endif
      if(dz(i).lt.0)then
      deltad=dmin1(deltad,-z(i)/dz(i))
      endif
      if(dw(i).lt.0)then
      deltad=dmin1(deltad,-w(i)/dw(i))
      endif
23014 continue
23015 continue
      deltap=dmin1(beta*deltap,one)
      deltad=dmin1(beta*deltad,one)
      if(min(deltap,deltad) .lt. one)then
      nit(2)=nit(2)+1
      mu = ddot(n,x,1,z,1)+ddot(n,s,1,w,1)
      g = mu + deltap*ddot(n,dx,1,z,1)+ deltad*ddot(n,dz,1,x,1) + deltap
     **deltad*ddot(n,dz,1,dx,1)+ deltap*ddot(n,ds,1,w,1)+ deltad*ddot(n,
     *dw,1,s,1) + deltap*deltad*ddot(n,ds,1,dw,1)
      mu = mu * ((g/mu)**3) /dfloat(2*n)
      do23026 i=1,n
      dr(i)=d(i)*(mu*(1/s(i)-1/x(i))+ dx(i)*dz(i)/x(i)-ds(i)*dw(i)/s(i))
23026 continue
23027 continue
      call dswap(p,rhs,1,dy,1)
      call dgemv('N',p,n,one,a,p,dr,1,one,dy,1)
      call dpotrs('U',p,1,ada,p,dy,p,info)
      call dgemv('T',p,n,one,a,p,dy,1,zero,u,1)
      deltap=big
      deltad=big
      do23028 i=1,n
      dxdz = dx(i)*dz(i)
      dsdw = ds(i)*dw(i)
      dx(i)= d(i)*(u(i)-z(i)+w(i))-dr(i)
      ds(i)= -dx(i)
      dz(i)= -z(i)+(mu - z(i)*dx(i) - dxdz)/x(i)
      dw(i)= -w(i)+(mu - w(i)*ds(i) - dsdw)/s(i)
      if(dx(i).lt.0)then
      deltap=dmin1(deltap,-x(i)/dx(i))
      endif
      if(ds(i).lt.0)then
      deltap=dmin1(deltap,-s(i)/ds(i))
      endif
      if(dz(i).lt.0)then
      deltad=dmin1(deltad,-z(i)/dz(i))
      endif
      if(dw(i).lt.0)then
      deltad=dmin1(deltad,-w(i)/dw(i))
      endif
23028 continue
23029 continue
      deltap=dmin1(beta*deltap,one)
      deltad=dmin1(beta*deltad,one)
      endif
      call daxpy(n,deltap,dx,1,x,1)
      call daxpy(n,deltap,ds,1,s,1)
      call daxpy(p,deltad,dy,1,y,1)
      call daxpy(n,deltad,dz,1,z,1)
      call daxpy(n,deltad,dw,1,w,1)
      gap = ddot(n,z,1,x,1)+ddot(n,w,1,s,1)
      goto 23008
      endif
23009 continue
      call daxpy(n,mone,w,1,z,1)
      call dswap(n,z,1,x,1)
      return
      end
      subroutine stepy(n,p,a,d,b,ada,info)
      integer n,p,pp,i,info
      double precision a(p,n),b(p),d(n),ada(p,p),zero
      parameter( zero = 0.0d0)
      pp=p*p
      do23038 j=1,p
      do23040 k=1,p
      ada(j,k)=zero
23040 continue
23041 continue
23038 continue
23039 continue
      do23042 i=1,n
      call dsyr('U',p,d(i),a(1,i),1,ada,p)
23042 continue
23043 continue
      call dposv('U',p,1,ada,p,b,p,info)
      return
      end
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