fixed parameters passing to fhermit in hermitian_2

src/dispersion.f90

@@ -312,11 +312,11 @@ subroutine diel_tens_fr(xg,yg,mu,npl,e330,cr,ci,epsl,lrm,fast)
         case(2:3)
           call hermitian(rr,yg,mu,npl,cr,ci,fast,lrm)
         
-        case(4)
+        case(4:)
           call hermitian_2(rr,yg,mu,npl,cr,ci,fast,lrm)
         
         case default
-          write(*,*) 'fast dispersion flag unknown value:', fast
+          write(*,*) "unexpected value for flag 'fast' in dispersion:", fast
         
       end select 
 !
@@ -585,19 +585,17 @@ subroutine diel_tens_fr(xg,yg,mu,npl,e330,cr,ci,epsl,lrm,fast)
 !
 !
       subroutine hermitian_2(rr,yg,mu,npl,cr,ci,fast,lrm)
-!
       implicit none
 ! parameters
-      integer :: lw,liw,npar
-      parameter(lw=5000,liw=lw/4,npar=7)
-      real(dp) :: epsa,epsr
-      parameter(epsa=0.0d0,epsr=1.0d-4)
+      integer,parameter :: lw=5000,liw=lw/4
+      integer, parameter :: npar=7
+      real(dp), parameter :: epsa=0.0d0,epsr=1.0d-4
 ! arguments
       integer :: lrm,fast
       real(dp) :: yg,mu,npl,cr,ci
       real(dp), dimension(-lrm:lrm,0:2,0:lrm) :: rr
 ! internal
-      integer :: n,m,ih,i,k,n1,nn,llm,neval,ier,last
+      integer :: n,m,ih,i,k,n1,nn,llm,neval,ier,last,ihmin
       integer, dimension(liw) :: iw
       real(dp) :: mu2,mu4,mu6,npl2,dt,bth,bth2,bth4,bth6
       real(dp) :: t,x,s,sy1,sy2,sy3,resfh,epp
@@ -620,36 +618,29 @@ subroutine diel_tens_fr(xg,yg,mu,npl,e330,cr,ci,epsl,lrm,fast)
       mu4=mu2*mu2
       mu6=mu4*mu2
 !
-        n1=1
-        if(fast.gt.10) n1=-llm
+      n1=1
+      if(fast.gt.10) n1=-llm
 !
-        apar(1) = yg
-        apar(2) = mu
-        apar(3) = npl
-        apar(4) = cr
-        apar(5) = real(n,dp)
-        apar(6) = real(m,dp)
-        apar(7) = real(ih,dp)
+      apar(1) = yg
+      apar(2) = mu
+      apar(3) = npl
+      apar(4) = cr
 !
-        do n=n1,llm
-          nn=abs(n)
-          do m=nn,llm
-            if(n.eq.0.and.m.eq.0) then
-            ih=2
-!              call dqagi(fhermit,bound,2,epsa,epsr,resfh,
-              call dqagsmv(fhermit,-tmax,tmax,apar,npar,epsa,epsr,resfh,&
-     &             epp,neval,ier,liw,lw,last,iw,w)
-              rr(n,2,m) = resfh
-              else
-              do ih=0,2
-!              call dqagi(fhermit,bound,2,epsa,epsr,resfh,
-              call dqagsmv(fhermit,-tmax,tmax,apar,npar,epsa,epsr,resfh,&
-     &             epp,neval,ier,liw,lw,last,iw,w)
-                rr(n,ih,m) = resfh
-              end do
-            end if
+      do n=n1,llm
+        nn=abs(n)
+        do m=nn,llm
+          apar(5) = real(n,dp)
+          apar(6) = real(m,dp)
+          if(n.eq.0.and.m.eq.0) ihmin=2
+          do ih=ihmin,2
+            apar(7) = real(ih,dp)
+!            call dqagi(fhermit,bound,2,epsa,epsr,resfh,
+            call dqagsmv(fhermit,-tmax,tmax,apar,npar,epsa,epsr,resfh, &
+              epp,neval,ier,liw,lw,last,iw,w)
+            rr(n,ih,m) = resfh
           end do
         end do
+      end do
       
       if(fast.gt.10) return
 !
@@ -662,88 +653,88 @@ subroutine diel_tens_fr(xg,yg,mu,npl,e330,cr,ci,epsl,lrm,fast)
 !
       npl2=npl*npl
 !
-      rr(0,2,0) = -(1.0d0+bth2*(-1.25d0+1.5d0*npl2)&
-     &          +bth4*(1.71875d0-6.0d0*npl2+3.75d0*npl2*npl2))
+      rr(0,2,0) = -(1.0d0+bth2*(-1.25d0+1.5d0*npl2)                    &
+                +bth4*(1.71875d0-6.0d0*npl2+3.75d0*npl2*npl2))
       rr(0,1,1) = -npl*bth2*(1.0d0+bth2*(-2.25d0+1.5d0*npl2))
       rr(0,2,1) = -bth2*(1.0d0+bth2*(-0.5d0+1.5d0*npl2))
-      rr(-1,0,1) = -2.0d0/sy1*(1.0d0+bth2/sy1*(-1.25d0+0.5d0*npl2&
-     &             /sy1)+bth4/sy1*(-0.46875d0+(2.1875d0+0.625d0*npl2)/&
-     &         sy1-2.625d0*npl2/sy1**2+0.75d0*npl2*npl2/sy1**3))
-      rr(-1,1,1) = -npl*bth2/sy1**2*(1.0d0+bth2*(1.25d0-3.5d0/sy1+&
-     &             1.5d0*npl2/sy1**2)) 
-      rr(-1,2,1) = -bth2/sy1*(1.0d0+bth2*(1.25d0-1.75d0/sy1+1.5d0*&
-     &              npl2/sy1**2))
+      rr(-1,0,1) = -2.0d0/sy1*(1.0d0+bth2/sy1*(-1.25d0+0.5d0*npl2      &
+                   /sy1)+bth4/sy1*(-0.46875d0+(2.1875d0+0.625d0*npl2)/ &
+               sy1-2.625d0*npl2/sy1**2+0.75d0*npl2*npl2/sy1**3))
+      rr(-1,1,1) = -npl*bth2/sy1**2*(1.0d0+bth2*(1.25d0-3.5d0/sy1+     &
+                   1.5d0*npl2/sy1**2)) 
+      rr(-1,2,1) = -bth2/sy1*(1.0d0+bth2*(1.25d0-1.75d0/sy1+1.5d0*     &
+                    npl2/sy1**2))
 !
       if(llm.gt.1) then
 !
-      rr(0,0,2) = -4.0d0*bth2*(1.0d0+bth2*(-0.5d0+0.5d0*npl2)+&
-     &            bth4*(1.125d0-1.875d0*npl2+0.75d0*npl2*npl2))
-      rr(0,1,2) = -2.0d0*npl*bth4*(1.0d0+bth2*(-1.5d0+1.5d0*npl2))
-      rr(0,2,2) = -2.0d0*bth4*(1.0d0+bth2*(0.75d0+1.5d0*npl2))
-      rr(-1,0,2) = -4.0d0*bth2/sy1*(1.0d0+bth2*&
-     &              (1.25d0-1.75d0/sy1+0.5d0*npl2/sy1**2)+bth4*&
-     &    (0.46875d0-3.28125d0/sy1+(3.9375d0+1.5d0*npl2)/sy1**2&
-     &    -3.375d0*npl2/sy1**3+0.75d0*npl2*npl2/sy1**4))     
-      rr(-1,1,2) = -2.0d0*bth4*npl/sy1**2*(1.0d0+bth2*&
-     &              (3.0d0-4.5d0/sy1+1.5d0*npl2/sy1**2))
-      rr(-1,2,2) = -2.0d0*bth4/sy1*(1.0d0+bth2*&
-     &              (3.0d0-2.25d0/sy1+1.5d0*npl2/sy1**2))
-      rr(-2,0,2) = -4.0d0*bth2/sy2*(1.0d0+bth2*&
-     &              (1.25d0-1.75d0/sy2+0.5d0*npl2/sy2**2)+bth4*&
-     &    (0.46875d0-3.28125d0/sy2+(3.9375d0+1.5d0*npl2)/sy2**2&
-     &    -3.375d0*npl2/sy2**3+0.75d0*npl2*npl2/sy2**4))    
-      rr(-2,1,2) =-2.0d0*bth4*npl/sy2**2*(1.0d0+bth2*&
-     &              (3.0d0-4.5d0/sy2+1.5d0*npl2/sy2**2))
-      rr(-2,2,2) = -2.0d0*bth4/sy2*(1.0d0+bth2*&
-     &               (3.0d0-2.25d0/sy2+1.5d0*npl2/sy2**2))
+        rr(0,0,2) = -4.0d0*bth2*(1.0d0+bth2*(-0.5d0+0.5d0*npl2)+       &
+                    bth4*(1.125d0-1.875d0*npl2+0.75d0*npl2*npl2))
+        rr(0,1,2) = -2.0d0*npl*bth4*(1.0d0+bth2*(-1.5d0+1.5d0*npl2))
+        rr(0,2,2) = -2.0d0*bth4*(1.0d0+bth2*(0.75d0+1.5d0*npl2))
+        rr(-1,0,2) = -4.0d0*bth2/sy1*(1.0d0+bth2*                      &
+                     (1.25d0-1.75d0/sy1+0.5d0*npl2/sy1**2)+bth4*       &
+          (0.46875d0-3.28125d0/sy1+(3.9375d0+1.5d0*npl2)/sy1**2        &
+          -3.375d0*npl2/sy1**3+0.75d0*npl2*npl2/sy1**4))     
+        rr(-1,1,2) = -2.0d0*bth4*npl/sy1**2*(1.0d0+bth2*               &
+                     (3.0d0-4.5d0/sy1+1.5d0*npl2/sy1**2))
+        rr(-1,2,2) = -2.0d0*bth4/sy1*(1.0d0+bth2*                      &
+                      (3.0d0-2.25d0/sy1+1.5d0*npl2/sy1**2))
+        rr(-2,0,2) = -4.0d0*bth2/sy2*(1.0d0+bth2*                      &
+                     (1.25d0-1.75d0/sy2+0.5d0*npl2/sy2**2)+bth4*       &
+           (0.46875d0-3.28125d0/sy2+(3.9375d0+1.5d0*npl2)/sy2**2       &
+          -3.375d0*npl2/sy2**3+0.75d0*npl2*npl2/sy2**4))    
+        rr(-2,1,2) = -2.0d0*bth4*npl/sy2**2*(1.0d0+bth2*               &
+                     (3.0d0-4.5d0/sy2+1.5d0*npl2/sy2**2))
+        rr(-2,2,2) = -2.0d0*bth4/sy2*(1.0d0+bth2*                      &
+                     (3.0d0-2.25d0/sy2+1.5d0*npl2/sy2**2))
 !
-      if(llm.gt.2) then
+        if(llm.gt.2) then
 !
-      rr(0,0,3) = -12.0d0*bth4*(1+bth2*(0.75d0+0.5d0*npl2)+bth4*&
-     &            (1.21875d0-1.5d0*npl2+0.75d0*npl2*npl2)) 
-      rr(0,1,3) = -6.0d0*npl*bth6*(1+bth2*(-0.25d0+1.5d0*npl2))
-      rr(0,2,3) = -6.0d0*bth6*(1+bth2*(2.5d0+1.5d0*npl2))
-      rr(-1,0,3) = -12.0d0*bth4/sy1*&
-     &             (1.0d0+bth2*(3.0d0-2.25d0/sy1+0.5d0*npl2/sy1**2)+&
-     &             bth4*(3.75d0-8.71875d0/sy1+(6.1875d0+2.625d0*npl2)&
-     &        /sy1**2-4.125d0*npl2/sy1**3+0.75d0*npl2*npl2/sy1**4))
-      rr(-1,1,3) = -6.0d0*npl*bth6/sy1**2*&
-     &             (1.0d0+bth2*(5.25d0-5.5d0/sy1+1.5d0*npl2/sy1**2))
-      rr(-1,2,3) = -6.0d0*bth6/sy1*&
-     &             (1.0d0+bth2*(5.25d0-2.75d0/sy1+1.5d0*npl2/sy1**2))
+          rr(0,0,3) = -12.0d0*bth4*(1+bth2*(0.75d0+0.5d0*npl2)+bth4*     &
+                      (1.21875d0-1.5d0*npl2+0.75d0*npl2*npl2)) 
+          rr(0,1,3) = -6.0d0*npl*bth6*(1+bth2*(-0.25d0+1.5d0*npl2))
+          rr(0,2,3) = -6.0d0*bth6*(1+bth2*(2.5d0+1.5d0*npl2))
+          rr(-1,0,3) = -12.0d0*bth4/sy1*&
+                       (1.0d0+bth2*(3.0d0-2.25d0/sy1+0.5d0*npl2/sy1**2)+ &
+                     bth4*(3.75d0-8.71875d0/sy1+(6.1875d0+2.625d0*npl2)  &
+                  /sy1**2-4.125d0*npl2/sy1**3+0.75d0*npl2*npl2/sy1**4))
+          rr(-1,1,3) = -6.0d0*npl*bth6/sy1**2*&
+                       (1.0d0+bth2*(5.25d0-5.5d0/sy1+1.5d0*npl2/sy1**2))
+          rr(-1,2,3) = -6.0d0*bth6/sy1*&
+                       (1.0d0+bth2*(5.25d0-2.75d0/sy1+1.5d0*npl2/sy1**2))
 !
-      rr(-2,0,3) = -12.0d0*bth4/sy2*&
-     &              (1.0d0+bth2*(3.0d0-2.25d0/sy2+0.5d0*npl2/sy2**2)+&
-     &              bth4*(3.75d0-8.71875d0/sy2+(6.1875d0+2.625d0*npl2)&
-     &        /sy2**2-4.125d0*npl2/sy2**3+0.75d0*npl2*npl2/sy2**4))
-      rr(-2,1,3) = -6.0d0*npl*bth6/sy2**2*&
-     &              (1.0d0+bth2*(5.25d0-5.5d0/sy2+1.5d0*npl2/sy2**2))
-      rr(-2,2,3) = -6.0d0*bth6/sy2*&
-     &              (1.0d0+bth2*(5.25d0-2.75d0/sy2+1.5d0*npl2/sy2**2))
+          rr(-2,0,3) = -12.0d0*bth4/sy2*&
+                       (1.0d0+bth2*(3.0d0-2.25d0/sy2+0.5d0*npl2/sy2**2)+ &
+                     bth4*(3.75d0-8.71875d0/sy2+(6.1875d0+2.625d0*npl2)  &
+                  /sy2**2-4.125d0*npl2/sy2**3+0.75d0*npl2*npl2/sy2**4))
+          rr(-2,1,3) = -6.0d0*npl*bth6/sy2**2*                           &
+                       (1.0d0+bth2*(5.25d0-5.5d0/sy2+1.5d0*npl2/sy2**2))
+          rr(-2,2,3) = -6.0d0*bth6/sy2*                                  &
+                       (1.0d0+bth2*(5.25d0-2.75d0/sy2+1.5d0*npl2/sy2**2))
 !
-      rr(-3,0,3) = -12.0d0*bth4/sy3*&
-     &              (1.0d0+bth2*(3.0d0-2.25d0/sy3+0.5d0*npl2/sy3**2)+&
-     &              bth4*(3.75d0-8.71875d0/sy3+(6.1875d0+2.625d0*npl2)&
-     &        /sy3**2-4.125d0*npl2/sy3**3+0.75d0*npl2*npl2/sy3**4))
-      rr(-3,1,3) = -6.0d0*npl*bth6/sy3**2*&
-     &              (1.0d0+bth2*(5.25d0-5.5d0/sy3+1.5d0*npl2/sy3**2))
-      rr(-3,2,3) = -6.0d0*bth6/sy3*&
-     &              (1.0d0+bth2*(5.25d0-2.75d0/sy3+1.5d0*npl2/sy3**2))
+          rr(-3,0,3) = -12.0d0*bth4/sy3*                                 &
+                       (1.0d0+bth2*(3.0d0-2.25d0/sy3+0.5d0*npl2/sy3**2)+ &
+                     bth4*(3.75d0-8.71875d0/sy3+(6.1875d0+2.625d0*npl2)  &
+                  /sy3**2-4.125d0*npl2/sy3**3+0.75d0*npl2*npl2/sy3**4))
+          rr(-3,1,3) = -6.0d0*npl*bth6/sy3**2*                           &
+                       (1.0d0+bth2*(5.25d0-5.5d0/sy3+1.5d0*npl2/sy3**2))
+          rr(-3,2,3) = -6.0d0*bth6/sy3*                                  &
+                       (1.0d0+bth2*(5.25d0-2.75d0/sy3+1.5d0*npl2/sy3**2))
 !
-      end if
+        end if
       end if
 !
-      return
-      end
+      end subroutine hermitian_2
 !
 !
       function fhermit(t,apar,npar)
 !
       implicit none
 ! arguments
-      integer npar
-      real(dp) t,fhermit
-      real(dp), dimension(npar) :: apar
+      integer, intent(in) :: npar
+      real(dp), intent(in) :: t
+      real(dp) :: fhermit
+      real(dp), dimension(npar), intent(in) :: apar
 ! internal
       integer :: n,m,ih
       integer nn
@@ -771,7 +762,6 @@ subroutine diel_tens_fr(xg,yg,mu,npl,e330,cr,ci,epsl,lrm,fast)
       upl=bth*x
       gx=1.0d0+t*t/mu
       exdxdt=cr*exp(-t*t)*gx/rxt
-      nn=abs(n)
       gr=npl*upl+n*yg
       zm=-mu*(gx-gr)
       s=mu*(gx+gr)
@@ -787,8 +777,7 @@ subroutine diel_tens_fr(xg,yg,mu,npl,e330,cr,ci,epsl,lrm,fast)
       if(m.eq.3) ffe=(18.0d0*s*(s+4.0d0-zm)+6.0d0*(20.0d0-8.0d0*zm+zm2) &
      &                +s**3*(2.0d0+zm+zm2-zm3*fe0m))*uplh/mu6
       fhermit= exdxdt*ffe
-      return
-      end
+      end function fhermit
 !
 !
       subroutine antihermitian(ri,yg,mu,npl,cr,ci,lrm)