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Si_def_element.f90
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Si_def_element.f90
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!The Polymorphic Tracking Code
!Copyright (C) Etienne Forest and CERN
MODULE S_DEF_ELEMENT
! USE S_DEF_KIND
! USE USER_kind1
! USE USER_kind2
USE sagan_WIGGLER
IMPLICIT NONE
public
logical(lp),PARAMETER::BERZ=.TRUE.,ETIENNE=.NOT.BERZ
logical(lp) :: USE_TPSAFIT=.TRUE. ! USE GLOBAL ARRAY INSTEAD OF PERSONAL ARRAY
logical(lp), target :: set_tpsafit=.false.
logical(lp), target :: set_ELEMENT=.false.
real(dp) , target :: scale_tpsafit=1.0_dp
real(dp), target :: tpsafit(lnv) ! used for fitting with tpsa in conjunction with pol_block
PRIVATE copy_el_elp,copy_elp_el,copy_el_el
PRIVATE cop_el_elp,cop_elp_el,cop_el_el
private ZERO_EL,ZERO_ELP
! PRIVATE MAGPSTATE,MAGSTATE
PRIVATE SETFAMILYR,SETFAMILYP
PRIVATE ADD_ANBNR,ADD_ANBNP,bL_0,EL_BL,ELp_BL,COPY_BL,UNARYP_BL
PRIVATE ELp_POL,bLPOL_0
PRIVATE work_0,work_r,ELp_WORK,EL_WORK,WORK_EL,WORK_ELP,BL_EL,BL_ELP,unaryw_w
PRIVATE ZERO_ANBN,ZERO_ANBN_R,ZERO_ANBN_P
private null_EL,null_ELp
logical(lp), PRIVATE :: VERBOSE = .FALSE.
logical(lp), PRIVATE :: GEN = .TRUE.
logical(lp),TARGET :: ALWAYS_EXACTMIS=.TRUE.
logical(lp),TARGET :: FEED_P0C=.FALSE.
integer, TARGET :: np_pol=0
! logical(lp) :: isomorphism_MIS=.TRUE. !Not needed anymore always should be true
private put_aperture_el,put_aperture_elp
integer :: mfpolbloc=0
logical(lp),target :: recirculator_cheat=my_false
PRIVATE TRACKR,TRACKP
logical(lp), target :: restore_mag=my_true,restore_magp=my_true
! Old home for element and elementp, now in sh_def_kind
INTERFACE EQUAL
MODULE PROCEDURE copy_el_elp ! need upgrade
MODULE PROCEDURE copy_elp_el ! need upgrade
MODULE PROCEDURE copy_el_el ! need upgrade
end INTERFACE
INTERFACE COPY
MODULE PROCEDURE cop_el_elp ! need upgrade
MODULE PROCEDURE cop_elp_el ! need upgrade
MODULE PROCEDURE cop_el_el ! need upgrade
MODULE PROCEDURE COPY_BL
end INTERFACE
INTERFACE ADD
MODULE PROCEDURE ADD_ANBNR
MODULE PROCEDURE ADD_ANBNP
end INTERFACE
INTERFACE ZERO_ANBN
MODULE PROCEDURE ZERO_ANBN_R
MODULE PROCEDURE ZERO_ANBN_P
end INTERFACE
INTERFACE OPERATOR (+)
MODULE PROCEDURE unaryP_BL
END INTERFACE
INTERFACE OPERATOR (+)
MODULE PROCEDURE unaryw_w
END INTERFACE
INTERFACE print
MODULE PROCEDURE print_work
end INTERFACE
INTERFACE SETFAMILY
MODULE PROCEDURE SETFAMILYR ! need upgrade
MODULE PROCEDURE SETFAMILYP ! need upgrade
end INTERFACE
INTERFACE null_ELEment
MODULE PROCEDURE null_EL ! need upgrade
MODULE PROCEDURE null_ELp ! need upgrade
end INTERFACE
INTERFACE put_aperture
MODULE PROCEDURE put_aperture_el ! need upgrade
MODULE PROCEDURE put_aperture_elp ! need upgrade
end INTERFACE
INTERFACE ASSIGNMENT (=)
MODULE PROCEDURE ZERO_EL ! NEED UPGRADE
MODULE PROCEDURE ZERO_ELP ! NEED UPGRADE
! MODULE PROCEDURE MAGSTATE ! need upgrade IF STATES EXPANDED
! MODULE PROCEDURE MAGPSTATE ! need upgrade IF STATES EXPANDED
! Multipole block setting
MODULE PROCEDURE BL_0
MODULE PROCEDURE EL_BL
MODULE PROCEDURE ELp_BL
MODULE PROCEDURE BL_EL
MODULE PROCEDURE BL_ELP
! polymorphism
MODULE PROCEDURE bLPOL_0
MODULE PROCEDURE ELp_POL
! energy/mass retrieving
MODULE PROCEDURE work_0
MODULE PROCEDURE work_r
MODULE PROCEDURE ELp_WORK
MODULE PROCEDURE EL_WORK
MODULE PROCEDURE WORK_EL
MODULE PROCEDURE WORK_ELP
END INTERFACE
INTERFACE TRACK
! INTERFACE TRACK
MODULE PROCEDURE TRACKR
MODULE PROCEDURE TRACKP
! END INTERFACE
! END old Sj_elements
END INTERFACE
CONTAINS
SUBROUTINE TRACKR(EL,X,K,MID)
IMPLICIT NONE
real(dp),INTENT(INOUT):: X(6)
TYPE(ELEMENT),INTENT(INOUT):: EL
TYPE(WORM),OPTIONAL, INTENT(INOUT):: MID
TYPE(INTERNAL_STATE) K
if(associated(el%p%aperture)) then
if(el%p%dir*el%p%aperture%pos==0.OR.el%p%dir*el%p%aperture%pos==-1) call CHECK_APERTURE(EL%p%aperture,X)
endif
! if(other_program) then
! call track_R(x)
! return
! endif
SELECT CASE(EL%KIND)
CASE(KIND0)
IF(PRESENT(MID)) CALL XMID(MID,X,0)
IF(PRESENT(MID)) CALL XMID(MID,X,1) ! ADDED FOR NST=1 IN MARKER FOR THIN_LAYOUT SURVEY
case(KIND1)
CALL TRACK(EL%D0,X,K,MID)
case(KIND2)
CALL TRACK(EL%K2,X,k,MID)
case(KIND3)
CALL TRACK(EL%K3,X,k,MID)
case(KIND4)
CALL TRACK(EL%C4,X,k,MID)
case(KIND5)
CALL TRACK(EL%S5,X,k,MID)
case(KIND6)
CALL TRACK(EL%T6,X,k,MID)
case(KIND7)
CALL TRACK(EL%T7,X,k,MID)
case(KIND8)
CALL TRACK(EL%S8,X,k,MID)
case(KIND9)
CALL TRACK(EL%S9,X,k,MID)
case(KIND10)
CALL TRACK(EL%TP10,X,k,MID)
CASE(KIND11:KIND14)
call TRACK(EL%MON14,X,k,MID)
CASE(KIND15)
call TRACK(EL%SEP15,X,k,MID)
CASE(KIND16,KIND20)
call TRACK(EL%K16,X,k,MID)
CASE(KIND18)
call TRACK(EL%RCOL18,X,k,MID)
CASE(KIND19)
call TRACK(EL%ECOL19,X,k,MID)
CASE(KIND21)
call TRACK(EL%CAV21,X,k,MID)
CASE(KIND22)
call TRACK(EL%HE22,X,k,MID)
case(KINDWIGGLER)
call TRACK(EL%WI,X,k,MID)
case(KINDPA)
call TRACK(EL%PA,X,k,MID)
case(kindsuperdrift)
call TRACK(EL%SDR,X,k,MID)
case(KINDABELL)
call TRACK(EL%AB,X,k,MID)
case default
write(6,'(1x,i4,a21)') el%kind," not supported TRACKR"
! call !write_e(0)
END SELECT
if(associated(el%p%aperture)) then
if(el%p%dir*el%p%aperture%pos==0.OR.el%p%dir*el%p%aperture%pos==1) call CHECK_APERTURE(EL%p%aperture,X)
endif
END SUBROUTINE TRACKR
SUBROUTINE TRACKP(EL,X,K)
IMPLICIT NONE
TYPE(REAL_8),INTENT(INOUT):: X(6)
TYPE(ELEMENTP),INTENT(INOUT):: EL
! TYPE(WORM_8),OPTIONAL, INTENT(INOUT):: MID
TYPE(INTERNAL_STATE) K
if(associated(el%p%aperture)) then
if(el%p%dir*el%p%aperture%pos==0.OR.el%p%dir*el%p%aperture%pos==-1) call CHECK_APERTURE(EL%p%aperture,X)
endif
SELECT CASE(EL%KIND)
CASE(KIND0)
! IF(PRESENT(MID)) CALL XMID(MID,X,0)
case(KIND1)
CALL TRACK(EL%D0,X,K)
case(KIND2)
CALL TRACK(EL%K2,X,k)
case(KIND3)
CALL TRACK(EL%K3,X,k)
case(KIND4)
CALL TRACK(EL%C4,X,k)
case(KIND5)
CALL TRACK(EL%S5,X,k)
case(KIND6)
CALL TRACK(EL%T6,X,k)
case(KIND7)
CALL TRACK(EL%T7,X,k)
case(KIND8)
CALL TRACK(EL%S8,X,k)
case(KIND9)
CALL TRACK(EL%S9,X,k)
case(KIND10)
CALL TRACK(EL%TP10,X,k)
CASE(KIND11:KIND14)
call TRACK(EL%MON14,X,k)
CASE(KIND15)
call TRACK(EL%SEP15,X,k)
CASE(KIND16,KIND20)
call TRACK(EL%K16,X,k)
CASE(KIND18)
call TRACK(EL%RCOL18,X,k)
CASE(KIND19)
call TRACK(EL%ECOL19,X,k)
CASE(KIND21)
call TRACK(EL%CAV21,X,k)
CASE(KIND22)
call TRACK(EL%HE22,X,k)
case(KINDWIGGLER)
call TRACK(EL%WI,X,k)
case(KINDPA)
call TRACK(EL%PA,X,k)
case(kindsuperdrift)
call TRACK(EL%SDR,X,k)
case(KINDABELL)
call TRACK(EL%AB,X,k)
case default
write(6,'(1x,i4,a21)') el%kind," not supported TRACKP"
! call !write_e(0)
END SELECT
if(associated(el%p%aperture)) then
if(el%p%dir*el%p%aperture%pos==0.OR.el%p%dir*el%p%aperture%pos==1) call CHECK_APERTURE(EL%p%aperture,X)
endif
END SUBROUTINE TRACKP
! SUBROUTINE TRACK_R(X)
! IMPLICIT NONE
! REAL(DP) X(6),x6,xp,yp
! INTEGER icharef
! COMMON/ptc/ icharef
!
!
! if(j_global==1) return ! skipping OBJECT OF ZGOUBI = TRACKING COMMAND INTERNAL TO ZGOUBI
! icharef=0
!
! x(1)=x(1)*c_100
! x(3)=x(3)*c_100
! x6=x(6)*c_100
!
! xp=x(2)/root((one+x(5))**2-x(2)**2-x(4)**2)
! yp=x(4)/root((one+x(5))**2-x(2)**2-x(4)**2)
! x(2)=atan(xp)*c_1d3
! x(4)=atan(yp/root(one+xp**2))*c_1d3
!
! x(6)=x(5)
! x(5)=x6
!
! !call track_z(x,j_global,j_global)
!
! x6=x(5)/c_100
! x(5)=x(6)
! x(6)=x6
!
! x(1)=x(1)/c_100
! x(3)=x(3)/c_100
! xp=tan(x(2)/c_1d3)
! yp=tan(x(4)/c_1d3)*root(one+xp**2)
! x(2)=(one+x(5))*xp/root(one+xp**2+yp**2)
! x(4)=(one+x(5))*yp/root(one+xp**2+yp**2)
! icharef=1
! END SUBROUTINE TRACK_R
! SUBROUTINE TRACK_P(X)
! IMPLICIT NONE
! TYPE(REAL_8) X(6)
! track_zp is a fortran external routine using numerical differentiation
!call track_zp(x,j_global,j_global)
! WRITE(6,*) " NOT SUPPORTED "
! STOP 111
! END SUBROUTINE TRACK_P
SUBROUTINE work_0(S2,S1)
implicit none
type (work),INTENT(inOUT):: S2
INTEGER,INTENT(IN):: S1
S2%BETA0=1.0_dp
S2%energy=0.0_dp
S2%kinetic=0.0_dp
S2%p0c=0.0_dp
S2%brho=0.0_dp
S2%mass=0.0_dp
S2%gamma0I=0.0_dp
S2%gambet=0.0_dp
if(s1/=0) then
S2%rescale=.true.
s2%power=s1
else
S2%rescale=.false.
s2%power=0
endif
END SUBROUTINE work_0
SUBROUTINE work_r(S2,S1)
implicit none
type (work),INTENT(inOUT):: S2
real(dp),INTENT(IN):: S1
! S2%energy=-(S2%energy+s1)
! VERBOSE = .FALSE.
IF(FEED_P0C) THEN
call find_energy(s2,P0C=S1+S2%P0C)
ELSE
call find_energy(s2,ENERGY=S1+S2%energy)
ENDIF
! VERBOSE = .TRUE.
END SUBROUTINE work_r
SUBROUTINE print_work(S2,mf)
implicit none
type (work),INTENT(inOUT):: S2
integer,INTENT(IN):: mf
write(mf,*) "Beta0 = ",s2%beta0
write(mf,*) "Mass = ",s2%mass
write(mf,*) "Energy = ",s2%Energy
write(mf,*) "Kinetic Energy = ",s2%kinetic
write(mf,*) "p0c = ",s2%p0c
write(mf,*) "gamma = ",1.d0/s2%gamma0i
write(mf,*) "p0c = ",s2%p0c
write(mf,*) "brho = ",s2%brho
write(mf,*) "rescale and power = ",s2%rescale,s2%power
END SUBROUTINE print_work
function unaryw_w(S1)
implicit none
type (WORK),INTENT(IN):: S1
TYPE(WORK) unaryw_w
unaryw_w=s1
unaryw_w%rescale=.false.
end function unaryw_w
SUBROUTINE ELp_WORK(S2,S1)
implicit none
type (WORK),INTENT(IN):: S1
TYPE(ELEMENTP),INTENT(inOUT):: S2
integer i
if(s1%rescale) then
if(s2%p%nmul/=0) then ! doing for crab also
do i=1,s2%P%nmul
s2%bn(i)=s2%bn(i)*(S2%P%P0C/S1%P0C)**S1%power
s2%an(i)=s2%an(i)*(S2%P%P0C/S1%P0C)**S1%power
enddo
CALL ADD(s2,1,1,0.0_dp)
endif
if(associated(s2%B_sol)) s2%B_sol=s2%B_sol*(S2%P%P0C/S1%P0C)**S1%power
! if(s2%kind==kinduser1) call scale_user1(s2%u1,S2%P%P0C,S1%P0C,S1%power)
! if(s2%kind==kinduser2) call scale_user2(s2%u2,S2%P%P0C,S1%P0C,S1%power)
if(s2%kind==KINDwiggler) call scale_sagan(s2%wi,S2%P%P0C,S1%P0C,S1%power)
else ! ramping
! S2%P%BETA0=S1%BETA0
! S2%P%GAMMA0I=S1%GAMMA0I
! S2%P%GAMBET=S1%GAMBET
S2%P%P0C=S1%P0C
endif
END SUBROUTINE ELp_WORK
SUBROUTINE EL_WORK(S2,S1)
implicit none
type (WORK),INTENT(IN):: S1
TYPE(ELEMENT),INTENT(inOUT):: S2
integer i
if(s1%rescale) then
if(s2%p%nmul/=0) then
do i=1,s2%P%nmul
s2%bn(i)=s2%bn(i)*(S2%P%P0C/S1%P0C)**S1%power
s2%an(i)=s2%an(i)*(S2%P%P0C/S1%P0C)**S1%power
enddo
CALL ADD(s2,1,1,0.0_dp)
endif
if(associated(s2%B_sol)) s2%B_sol=s2%B_sol*(S2%P%P0C/S1%P0C)**S1%power
! if(s2%kind==kinduser1) call scale_user1(s2%u1,S2%P%P0C,S1%P0C,S1%power)
! if(s2%kind==kinduser2) call scale_user2(s2%u2,S2%P%P0C,S1%P0C,S1%power)
if(s2%kind==KINDwiggler) call scale_sagan(s2%wi,S2%P%P0C,S1%P0C,S1%power)
else ! ramping
! S2%P%BETA0=S1%BETA0
! S2%P%GAMMA0I=S1%GAMMA0I
! S2%P%GAMBET=S1%GAMBET
S2%P%P0C=S1%P0C
endif
END SUBROUTINE EL_WORK
SUBROUTINE WORK_EL(S1,S2)
implicit none
type (WORK),INTENT(inOUT):: S1
TYPE(ELEMENT),INTENT(IN):: S2
S1=S1%POWER
! S1%P0C=-S2%P%P0C
! VERBOSE = .FALSE.
call find_energy(s1,P0C=S2%P%P0C)
! VERBOSE = .TRUE.
END SUBROUTINE WORK_EL
SUBROUTINE WORK_ELp(S1,S2)
implicit none
type (WORK),INTENT(inOUT):: S1
TYPE(ELEMENTP),INTENT(IN):: S2
S1=S1%POWER
! S1%P0C=-S2%P%P0C
! VERBOSE = .FALSE.
call find_energy(s1,P0C=S2%P%P0C)
! VERBOSE = .TRUE.
END SUBROUTINE WORK_ELp
integer function mod_n(i,j)
implicit none
integer, intent(in) :: i,j
integer k
k=i
if(i<1) then
do while(k<1)
k=k+j
enddo
endif
mod_n=mod(k,j)
if(mod_n==0) mod_n=j
end function mod_n
SUBROUTINE bL_0(S2,S1)
implicit none
type (MUL_BLOCK),INTENT(OUT):: S2
INTEGER,INTENT(IN):: S1
INTEGER I
IF(S1>=0.OR.S1<=nmax) THEN
do i = 1,nmax
s2%aN(i)=0.0_dp
s2%bN(i)=0.0_dp
enddo
s2%natural=1
s2%nmul=S1
s2%ADD=0
ELSEIF(S1>NMAX) THEN
write(6,'(A38,1X,I4)') " NMAX NOT BIG ENOUGH: PLEASE INCREASE ",NMAX
ELSE
stop 135
ENDIF
END SUBROUTINE bL_0
SUBROUTINE bLPOL_0(S2,S1)
implicit none
type (POL_BLOCK),INTENT(OUT):: S2
INTEGER,INTENT(IN):: S1
INTEGER I
! IF(S1>=0.and.S1<=nmax) THEN
do i = 1,nmax
s2%SAN(i)=1.0_dp
s2%SBN(i)=1.0_dp
s2%IaN(i)=0
s2%IbN(i)=0
enddo
! S2%user1=0
! S2%user2=0
S2%SAGAN=0
S2%SVOLT=1.0_dp
S2%SFREQ=1.0_dp
S2%SPHAS=1.0_dp
S2%SB_SOL=1.0_dp
S2%IVOLT=0
S2%IFREQ=0
S2%IPHAS=0
S2%IB_SOL=0
s2%npara=S1
s2%g=0
s2%np=0
s2%nb=0
! s2%NMUL=0
s2%NAME=' '
s2%N_NAME=0
s2%VORNAME=' '
! s2%CHECK_NMUL=.TRUE.
nullify(s2%tpsafit);nullify(s2%set_tpsafit);
nullify(s2%set_ELEMENT);
IF(USE_TPSAFIT) then
s2%tpsafit=>tpsafit
s2%set_tpsafit=>set_tpsafit
s2%set_ELEMENT=>set_ELEMENT
endif
if(s1>0) then
c_%npara_fpp=0 ! backwards compatible
endif
END SUBROUTINE bLPOL_0
SUBROUTINE BL_EL(S1,S2)
implicit none
type (MUL_BLOCK),INTENT(out):: S1
TYPE(ELEMENT),INTENT(IN):: S2
INTEGER I
IF(S2%P%NMUL>NMAX) THEN
!w_p=0
!w_p%nc=1
!w_p%fc='(1((1X,A72)))'
write(*,'(A21,1X,I4,1X,I4)') " NMAX NOT BIG ENOUGH ", S2%P%NMUL,NMAX
! call !write_e(456)
ENDIF
S1=S2%P%NMUL
DO I=1,S2%P%NMUL
s1%AN(I)=s2%AN(I)
s1%BN(I)=s2%BN(I)
ENDDO
END SUBROUTINE BL_EL
SUBROUTINE BL_ELP(S1,S2)
implicit none
type (MUL_BLOCK),INTENT(out):: S1
TYPE(ELEMENTP),INTENT(IN):: S2
INTEGER I
IF(S2%P%NMUL>NMAX) THEN
!w_p=0
!w_p%nc=1
!w_p%fc='(1((1X,A72)))'
write(*,'(A21,1X,I4,1X,I4)') " NMAX NOT BIG ENOUGH ", S2%P%NMUL,NMAX
! call !write_e(456)
ENDIF
S1=S2%P%NMUL
DO I=1,S2%P%NMUL
s1%AN(I)=s2%AN(I)
s1%BN(I)=s2%BN(I)
ENDDO
END SUBROUTINE BL_ELP
SUBROUTINE EL_BL(S2,S1)
implicit none
type (MUL_BLOCK),INTENT(IN):: S1
TYPE(ELEMENT),INTENT(inOUT):: S2
INTEGER I
IF(S2%P%NMUL>NMAX) THEN
!w_p=0
!w_p%nc=1
!w_p%fc='(1((1X,A72)))'
write(*,'(A21,1X,I4,1X,I4)') " NMAX NOT BIG ENOUGH ", S2%P%NMUL,NMAX
! call !write_e(456)
ENDIF
IF(s1%nmul>s2%P%nmul) CALL ADD(s2,s1%nmul,1,0.0_dp)
DO I=1,S2%P%NMUL
s2%AN(I)=S1%ADD*s2%AN(I)+s1%AN(I)
s2%BN(I)=S1%ADD*s2%BN(I)+s1%BN(I)
ENDDO
CALL ADD(s2,1,1,0.0_dp)
END SUBROUTINE EL_BL
SUBROUTINE ELp_BL(S2,S1)
implicit none
type (MUL_BLOCK),INTENT(IN):: S1
TYPE(ELEMENTP),INTENT(inOUT):: S2
INTEGER I
IF(S2%P%NMUL>NMAX) THEN
!w_p=0
!w_p%nc=1
!w_p%fc='(1((1X,A72)))'
write(*,'(A21,1X,I4,1X,I4)') " NMAX NOT BIG ENOUGH ", S2%P%NMUL,NMAX
! call !write_e(456)
ENDIF
IF(s1%nmul>s2%P%nmul) CALL ADD(s2,s1%nmul,1,0.0_dp)
DO I=1,S2%P%NMUL
s2%AN(I)=S1%ADD*s2%AN(I)+s1%AN(I)
s2%BN(I)=S1%ADD*s2%BN(I)+s1%BN(I)
ENDDO
CALL ADD(s2,1,1,0.0_dp)
END SUBROUTINE ELp_BL
SUBROUTINE ELp_POL(S2,S1)
implicit none
type (POL_BLOCK),INTENT(IN):: S1
TYPE(ELEMENTP),INTENT(inOUT):: S2
logical(lp) DOIT !,checkname
CHARACTER(nlp) S1NAME
CHARACTER(vp) S1VORNAME
IF(S2%P%NMUL>NMAX) THEN
!w_p=0
!w_p%nc=1
!w_p%fc='(1((1X,A72)))'
write(*,'(A21,1X,I4,1X,I4)') " NMAX NOT BIG ENOUGH ", S2%P%NMUL,NMAX
! call !write_e(456)
ENDIF
S1NAME=S1%name
S1VORNAME=S1%VORname
CALL CONTEXT(S1name)
CALL CONTEXT(S1vorname)
CALL CONTEXT(S2%name)
CALL CONTEXT(S2%vorname)
DOIT=.TRUE.
IF(S1NAME/=' ') THEN
if(s1%n_name==0) then
IF(S1NAME/=S2%NAME) DOIT=.FALSE.
else
IF(S1NAME(1:s1%n_name)/=S2%NAME(1:s1%n_name)) DOIT=.FALSE.
endif
ENDIF
IF(S1VORNAME/=' ') THEN
IF(S1VORNAME/=S2%VORNAME.or.S1NAME/=S2%NAME) DOIT=.FALSE.
ENDIF
IF(DOIT) THEN
IF(.not.S1%SET_TPSAFIT.AND.(.NOT.SET_ELEMENT)) THEN
if(s2%knob) then
write(6,'(A45,A16)')" BE CAREFUL USING A POL_BLOCK ON SAME MAGNET ",S2%NAME
ENDIF
endif
s2%knob=.TRUE.
call ELp_POL_force(S2,S1)
ENDIF
END SUBROUTINE ELp_POL
SUBROUTINE ELp_POL_force(S2,S1)
implicit none
type (POL_BLOCK),INTENT(IN):: S1
TYPE(ELEMENTP),INTENT(inOUT):: S2
INTEGER I,S1NMUL
logical(lp) DOIT,DONEIT !,checkname
IF(S2%P%NMUL>NMAX) THEN
!w_p=0
!w_p%nc=1
!w_p%fc='(1((1X,A72)))'
write(*,'(A21,1X,I4,1X,I4)') " NMAX NOT BIG ENOUGH ", S2%P%NMUL,NMAX
! call !write_e(456)
ENDIF
DOIT=.TRUE.
s2%knob=.TRUE.
! IF(S1%NPARA>=4.AND.S1%NPARA<=6) THEN
DONEIT=.FALSE.
! IF(S1%CHECK_NMUL) THEN
S1NMUL=0
DO I=NMAX,1,-1
IF(s1%IAN(I)/=0.OR.s1%IBN(I)/=0) THEN
S1NMUL=I
if(s1%IAN(I)>c_%np_pol) c_%np_pol=s1%IAN(I)
if(s1%IBN(I)>c_%np_pol) c_%np_pol=s1%IBN(I)
GOTO 100
ENDIF
ENDDO
100 CONTINUE
! CALL SET_FALSE(S1%CHECK_NMUL)
! ENDIF
IF(S1NMUL>S2%P%NMUL) then
CALL ADD(S2,S1NMUL,1,0.0_dp) !etienne
endif
DO I=1,S1NMUL
IF(S1%IAN(I)>0) THEN
s2%AN(I)%I=S1%IAN(I)+S1%NPARA
s2%AN(I)%S=S1%SAN(I)
s2%AN(I)%KIND=3
s2%AN(I)%g=S1%g
s2%AN(I)%nb=S1%nb
DONEIT=.TRUE.
IF(S1%SET_TPSAFIT) THEN
s2%aN(I)%R=s2%aN(I)%R+scale_tpsafit*s2%AN(I)%S*s1%TPSAFIT(S1%IAN(I))
ENDIF
IF(S1%SET_ELEMENT) THEN
s2%PARENT_FIBRE%MAG%aN(I)=s2%aN(I)%R
ENDIF
ENDIF
IF(S1%IBN(I)>0) THEN
s2%BN(I)%I=S1%IBN(I)+S1%NPARA
s2%BN(I)%S=S1%SBN(I)
s2%BN(I)%KIND=3
s2%BN(I)%g=S1%g
s2%BN(I)%nb=S1%nb
DONEIT=.TRUE.
IF(S1%SET_TPSAFIT) THEN
s2%BN(I)%R=s2%BN(I)%R+scale_tpsafit*s2%BN(I)%S*s1%TPSAFIT(S1%IBN(I))
ENDIF
IF(S1%SET_ELEMENT) THEN
s2%PARENT_FIBRE%MAG%BN(I)=s2%BN(I)%R
ENDIF
ENDIF
ENDDO
IF(DONEIT.AND.(S1%SET_TPSAFIT.OR.S1%SET_ELEMENT)) THEN
CALL ADD(S2,1,1,0.0_dp) !etienne
ENDIF
IF(S2%KIND==KIND4) THEN ! CAVITY
DONEIT=.FALSE. ! NOT USED HERE
IF(S1%IVOLT>0) THEN
s2%VOLT%I=S1%IVOLT+S1%NPARA
s2%VOLT%S=S1%SVOLT
s2%VOLT%KIND=3
s2%VOLT%g=S1%g
s2%VOLT%nb=S1%nb
DONEIT=.TRUE.
if(S1%IVOLT>c_%np_pol) c_%np_pol=S1%IVOLT
IF(S1%SET_TPSAFIT) THEN
s2%VOLT%R=s2%VOLT%R+scale_tpsafit*s2%VOLT%S*s1%TPSAFIT(S1%IVOLT)
ENDIF
IF(S1%SET_ELEMENT) THEN
s2%PARENT_FIBRE%MAG%VOLT=s2%VOLT%R
ENDIF
ENDIF
IF(S1%IFREQ>0) THEN
s2%FREQ%I=S1%IFREQ+S1%NPARA
s2%FREQ%S=S1%SFREQ
s2%FREQ%g=S1%g
s2%FREQ%nb=S1%nb
s2%FREQ%KIND=3
if(S1%IFREQ>c_%np_pol) c_%np_pol=S1%IFREQ
IF(S1%SET_TPSAFIT) THEN
s2%FREQ%R=s2%FREQ%R+scale_tpsafit*s2%FREQ%S*s1%TPSAFIT(S1%IFREQ)
ENDIF
IF(S1%SET_ELEMENT) THEN
s2%PARENT_FIBRE%MAG%FREQ=s2%FREQ%R
ENDIF
DONEIT=.TRUE.
ENDIF
IF(S1%IPHAS>0) THEN
s2%PHAS%I=S1%IPHAS+S1%NPARA
s2%PHAS%S=S1%SPHAS
s2%PHAS%KIND=3
s2%PHAS%g=S1%g
s2%PHAS%nb=S1%nb
DONEIT=.TRUE.
if(S1%IPHAS>c_%np_pol) c_%np_pol=S1%IPHAS
IF(S1%SET_TPSAFIT) THEN
s2%PHAS%R=s2%PHAS%R+scale_tpsafit*s2%PHAS%S*s1%TPSAFIT(S1%IPHAS)
ENDIF
IF(S1%SET_ELEMENT) THEN
s2%PARENT_FIBRE%MAG%PHAS=s2%PHAS%R
ENDIF
ENDIF
ENDIF
IF(S2%KIND==KIND21) THEN ! CAVITY
DONEIT=.FALSE. ! NOT USED HERE
IF(S1%IVOLT>0) THEN
s2%VOLT%I=S1%IVOLT+S1%NPARA
s2%VOLT%S=S1%SVOLT
s2%PHAS%g=S1%g
s2%PHAS%nb=S1%nb
s2%VOLT%KIND=3
if(S1%IVOLT>c_%np_pol) c_%np_pol=S1%IVOLT
DONEIT=.TRUE.
IF(S1%SET_TPSAFIT) THEN
s2%VOLT%R=s2%VOLT%R+scale_tpsafit*s2%VOLT%S*s1%TPSAFIT(S1%IVOLT)
ENDIF
IF(S1%SET_ELEMENT) THEN
s2%PARENT_FIBRE%MAG%VOLT=s2%VOLT%R
ENDIF
ENDIF
IF(S1%IFREQ>0) THEN
s2%FREQ%I=S1%IFREQ+S1%NPARA
s2%FREQ%S=S1%SFREQ
s2%FREQ%g=S1%g
s2%FREQ%nb=S1%nb
s2%FREQ%KIND=3
if(S1%IFREQ>c_%np_pol) c_%np_pol=S1%IFREQ
IF(S1%SET_TPSAFIT) THEN
s2%FREQ%R=s2%FREQ%R+scale_tpsafit*s2%FREQ%S*s1%TPSAFIT(S1%IFREQ)
ENDIF
IF(S1%SET_ELEMENT) THEN
s2%PARENT_FIBRE%MAG%FREQ=s2%FREQ%R
ENDIF
DONEIT=.TRUE.
ENDIF
IF(S1%IPHAS>0) THEN
s2%PHAS%I=S1%IPHAS+S1%NPARA
s2%PHAS%S=S1%SPHAS
s2%PHAS%g=S1%g
s2%PHAS%nb=S1%nb
s2%PHAS%KIND=3
if(S1%IPHAS>c_%np_pol) c_%np_pol=S1%IPHAS
DONEIT=.TRUE.
IF(S1%SET_TPSAFIT) THEN
s2%PHAS%R=s2%PHAS%R+scale_tpsafit*s2%PHAS%S*s1%TPSAFIT(S1%IPHAS)
ENDIF
IF(S1%SET_ELEMENT) THEN
s2%PARENT_FIBRE%MAG%PHAS=s2%PHAS%R
ENDIF
ENDIF
ENDIF
IF(S2%KIND==KIND5) THEN ! SOLENOID
DONEIT=.FALSE.
IF(S1%IB_SOL>0) THEN
s2%B_SOL%I=S1%IB_SOL+S1%NPARA
s2%B_SOL%S=S1%SB_SOL
s2%B_SOL%g=S1%g
s2%B_SOL%nb=S1%nb
s2%B_SOL%KIND=3
DONEIT=.TRUE.
if(S1%IB_SOL>c_%np_pol) c_%np_pol=S1%IB_SOL
IF(S1%SET_TPSAFIT) THEN
s2%B_SOL%R=s2%B_SOL%R+scale_tpsafit*s2%B_SOL%S*s1%TPSAFIT(S1%IB_SOL)
ENDIF
IF(S1%SET_ELEMENT) THEN
s2%PARENT_FIBRE%MAG%B_SOL=s2%B_SOL%R
ENDIF
ENDIF
ENDIF
! IF(S2%KIND==kinduser1) THEN ! new element
! DONEIT=.FALSE. ! NOT USED HERE
! call ELp_POL_user1(S2%u1,S1,DONEIT)
! ENDIF
! IF(S2%KIND==kinduser2) THEN ! new element
! DONEIT=.FALSE. ! NOT USED HERE
! call ELp_POL_user2(S2%u2,S1,DONEIT)
! ENDIF
IF(S2%KIND==KINDWIGGLER) THEN ! new element
DONEIT=.FALSE. ! NOT USED HERE
call ELp_POL_SAGAN(S2%WI,S2%PARENT_FIBRE%MAG%WI,S1,DONEIT)
ENDIF
END SUBROUTINE ELp_POL_force
SUBROUTINE ELp_POL_print(S2)
implicit none
TYPE(ELEMENTP),INTENT(inOUT):: S2
INTEGER I
type(work) w
! CALL SET_FALSE(S1%CHECK_NMUL)
! ENDIF
DO I=1,S2%P%NMUL
IF(s2%AN(I)%KIND==3) THEN
w=s2
write(mfpolbloc,'(a16,a8,1x,i4,2(1x,e18.8))') s2%name, ' MAD AN ',i,s2%aN(I)%R*MADFAC(I),s2%aN(I)%R*w%brho*MADFAC(I)
ENDIF
IF(s2%bN(I)%KIND==3) THEN
w=s2
write(mfpolbloc,'(a16,a8,1x,i4,2(1x,e18.8))') s2%name, ' MAD BN ',i,s2%BN(I)%R*MADFAC(I),s2%BN(I)%R*w%brho*MADFAC(I)
endif
ENDDO
IF(S2%KIND==KIND4.or.S2%KIND==KIND21) THEN ! CAVITY
IF(s2%VOLT%KIND==3) THEN
write(mfpolbloc,*) s2%name, ' VOLT ',s2%VOLT%R
ENDIF
IF(s2%FREQ%KIND==3) THEN
write(mfpolbloc,*) s2%name, ' FREQ ',s2%FREQ%R
ENDIF
IF(s2%PHAS%KIND==3) THEN
write(mfpolbloc,*) s2%name, ' PHAS ',s2%PHAS%R
ENDIF
ENDIF
IF(S2%KIND==KIND5) THEN ! SOLENOID
IF(s2%B_SOL%KIND==3) THEN
write(mfpolbloc,*) s2%name, ' B_SOL ',s2%B_SOL%R
ENDIF
ENDIF
! IF(S2%KIND==KINDWIGGLER) THEN ! new element
! DONEIT=.FALSE. ! NOT USED HERE
! call ELp_POL_SAGAN(S2%WI,S1,DONEIT)
! ENDIF
END SUBROUTINE ELp_POL_print
SUBROUTINE COPY_BL(S1,S2)
implicit none
type (MUL_BLOCK),INTENT(IN):: S1
TYPE(MUL_BLOCK),INTENT(OUT):: S2
INTEGER I
DO I=1,NMAX
s2%AN(I)=s1%AN(I)
s2%BN(I)=S1%BN(I)
ENDDO
S2%NMUL =S1%NMUL
S2%ADD =S1%ADD
S2%NATURAL =S1%NATURAL
END SUBROUTINE COPY_BL
FUNCTION UNARYP_BL(S1)
implicit none
type (MUL_BLOCK),INTENT(IN):: S1
type (MUL_BLOCK) UNARYP_BL
CALL COPY(S1,UNARYP_BL)
UNARYP_BL%ADD=1
END FUNCTION UNARYP_BL